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SPIRES-BOOKS: FIND KEYWORD SOLID-STATE LASERS *END*INIT* use /tmp/qspiwww.webspi1/4746.2 QRY 131.225.70.96 . find keyword solid-state lasers ( in books using www Cover
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Call number:9781608077779:ONLINE Show nearby items on shelf
Title:Terahertz metrology
Author(s): Mira Naftaly
Date:2015
Publisher:Artech House
Size:1 online resource (386 p.)
Contents:Chapter 1 Terahertz Time-Domain Spectrometers -- Photoconductive Emitters and Detectors -- Optical Rectification -- Electro-Optic Detection -- Terahertz Air-Based Coherent Detection -- Cherenkov (Tilted Wavefront) Emitters and Detectors -- Continuou s-Wave Terahertz Time-Domain Spectrometer and Microwave Photonics -- Types of Continuous-Wave Terahertz Emitters and Detectors -- Time-Domain Spectrometer Configurations -- Transmission -- Reflection -- Attenuated Total Reflection -- Asynchronous Optical Sampling -- Substrate Lenses -- Commercial Systems -- Parameter Extraction in Time-Domain . Chapter 2 Spectrometers -- Material Properties and Wave Propagation -- Complex Refractive Index and Complex Permittivity -- Plane Wave Propagation Across an Interf ace.Fresnel Equations -- Plane Wave Propagation Through a Dielectric Slab -- Fabry-Perot Effect -- Extracting Optical Parameters from Terahertz Time-Domain Spectrometers Data -- Transmission-mode Terahertz Time-Domain Spectrometers: Approximation -- Trans mission-Mode Terahertz Time-Domain Spectrometers: Exact Solution -- Reflection-Mode Terahertz Time-Domain Spectrometers: Single Reflection -- Reflection-Mode Terahertz Time-Domain Spectrometers: Double Reflection -- Attenuated Total Reflection -- Preproce ssing and Postprocessing of Data -- Signal Averaging in the Time and Frequency Domains -- Signal Denoising -- Phase Unwrapping -- Sample Requirements -- Sample Thickness -- Lateral Dimensions of Samples -- Loss: Absorption, Scattering, Diffraction
Chapter 3 Metrology for Time-Domain Spectrometers -- Performance Parameters: Sensitivity, Resolution, Precision, Accuracy, Dynamic Range, and Signal-to-Noise Ratio -- Dynamic Range and Signal-to-Noise Ratio of Terahertz Time-Domain Spectrometers -- System Performance Limits Due to Dynamic Range and Signal-to-Noise Ratio -- Frequency Resolution -- Measurement Bandwidth -- Sources of Random Noise -- Amplitude -- Phase -- Systematic Errors -- Alignment Errors -- Focal Plane Defocusing -- Delay Line Err ors -- Terahertz Beam Profile -- Chapter 4 Evaluation of Uncertainty in Time-Domain Spectroscopy -- Method of Uncertainty Evaluation -- Evaluation of Random and Systematic Errors -- Propagation and Combination of Measurement Uncertainty -- Measurement wit h Resolution Limit -- Sources of Uncertainty in Terahertz Time-Domain Spectroscopy -- Random and Systematic Errors in Amplitude -- Random and Systematic Errors in Sample Thickness -- Random and Systematic Errors in Sample Alignment -- Systematic Error in the Approximated Transfer Function -- Systematic Error Due to Reflections -- Systematic Error in Physical Constants -- Uncertainty in Optical Constants: A Combination of Variances
Chapter 5 Metrology for Fourier Transform Spectrometers -- Spectrometer Configurations -- Michelson -- Mach-Zender -- Polarized Fourier Transform Spectrometer (Martin-Pupplett Interferometer) -- Modes of Operation: Step and Integrate or Fast Scannin g -- Moving Stage -- General Fourier Transform Spectrometer Advantages -- Fourier Transform Spectrometer Metrology -- Encoders, Synchronizing, and Time-Stamping -- Instrument Line Function: A Spectral Resolution Limitation -- Apodization -- Cosine and Sin e Terms and Phase Correction Techniques -- Achievable Spectral Resolution -- Sample Measurement Parameter Recovery -- Thin Sample Approximation: Lossless Case -- Dispersive Medium -- Thick Sample Analysis (or Noncollimated Measurement) -- Absorption Coeff icients -- Sources of Noise and Uncertainties -- Time-Domain Errors -- (Software) Noise Reduction Techniques -- Chapter 6 Terahertz Spectrometer Calibration -- Why Calibrate Terahertz Spectrometers -- Frequency Calibration -- Gases -- Solids -- Resonant M esh Filters -- Etalons -- Summary of Frequency Calibration Standards -- Amplitude Linearity Calibration -- Reflection Standards
Chapter 7 Terahertz Imaging -- Image Resolution of a Terahertz Imaging System -- Data Analysis in the Far Field -- Imaging Thin Layers -- Spatial Resolution Tests -- Near-Field Imaging -- Chemical Imaging -- Focal Plane Array Microbolometer Cameras -- Chapter 8 Metrology for Vector Network Analyzers -- Vector Network Analyzers -- The Role of a Network Analyzer -- Scattering Parameters -- Vector Network Analyzer Systems -- Extender Heads -- Good Practice Tips -- Metallic Waveguides -- Basic Properti es -- Dispersion -- Standardized Sizes and Frequency Ranges -- Flanges/Interfaces -- Good Practice Tips -- Calibration Standards and Methods -- Calibration: General Principles -- Types of Calibration Standard -- One-Port Calibration Methods -- Two-Port Ca libration Methods -- Connection Repeatability -- System Verification -- Chapter 9 Terahertz Optics -- Terahertz Optical Materials -- Transparency at Terahertz Frequencies -- Inorganic Crystals for Terahertz Optics -- Polymers for Terahertz Optics -- Metal Reflectivities -- Gaussian Optics -- Gaussian Beams -- Parabolic Mirrors -- Dichroic Optical Elements -- Terahertz Transparent/Visible Opaque -- Terahertz Opaque/Visible Transparent -- Terahertz Reflective/Visible Transparent -- Terahertz Transparent/Vis ible Reflective -- Wire-Grid Polarizers -- Antireflection Coatings -- Photonic Crystal Fibers and Terahertz . Waveguides
Chapter 10 Terahertz Laser Sources -- Optically Pumped Gas Lasers -- P-Germanium Laser -- Quantum Cascade Lasers -- Pulsed Difference Frequency Generation -- High-Resolution Frequency Measurements Using Continuous-Wave Difference Frequency Generatio n -- Optical Parametric Oscillators -- Free Electron Lasers -- Chapter 11 Electronic Sources of Terahertz Radiation and Terahertz Detectors -- Electronic Sources of Terahertz Radiation: Introduction and Terminology -- Vacuum Electronic Sources -- Backward Wave Oscillators -- Extended Interaction Klystrons -- Solid-State Devices -- Gunn Diodes and IMPATT Oscillators and Amplifiers -- Transistor Amplifiers -- Frequency Multiplied Sources -- Source Characteristics Summary -- Detectors of Terahertz Radiation: Introduction and Terminology . Incoherent Detectors -- Golay Cell -- Pyroelectric Detectors -- Room-Temperature Bolometers -- Cryogenic Bolometers -- Photoconductive Detectors -- Semiconductor Diode Rectifiers -- Thermopiles -- Incoherent Detector Summar y -- Coherent Detectors: Introduction -- Schottky Diode Mixers -- Frequency Measurement
ISBN:9781608077762
Series:eBooks
Series:Artech ebooks
Keywords: Terahertz spectroscopy. , Metrology. , Terahertz technology.
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Call number:TA1705.K63::1996 Show nearby items on shelf
Title:Solid-state laser engineering
Author(s): Walter Koechner 1937-
Date:1996
Edition:4th extensively rev. and updated ed.
Publisher:Springer, Berlin
Size:708
ISBN:3540602372
Series:Springer series in optical sciences : v. 1
Keywords: Solid-state lasers.
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Call number:SPRINGER-2014-9783319023380:ONLINE Show nearby items on shelf
Title:Fundamentals of Fiber Lasers and Fiber Amplifiers [electronic resource]
Author(s): Valerii (Vartan) Ter-Mikirtychev
Date:2014
Publisher:Cham : Springer International Publishing : Imprint: Springer
Size:1 online resource
Note:This book covers the fundamental aspects of fiber lasers and fiber amplifiers, and includes a wide range of material from laser physics fundamentals to state-of-the-art topics in this rapidly growing field of quantum electronics.Emphasis is placed on the nonlinear processes taking place in fiber lasers and amplifiers, their similarities, differences to, and their advantages over other solid-state lasers. The reader will learn basic principles of solid-statephysics and optical spectroscopy of laser ac tive centers in fibers, main operational laser regimes, and practical recommendations and suggestions on fiber laser research, laser applications,and laser product development. The bookwill be useful for students, researchers, and professionals who work w ith lasers, in the optical communications, chemical and biological industries, etc
Contents:From the Contents: Optical properties and optical spectroscopy of rare
earth ions in solids
Electron
phonon coupling in solids
Physical and optical properties of laser glass
Mechanical and thermal properties of glass
Fiber fabrication and high quality glasses for gain fibers
Spectroscopic properties of and gain fibers
Propagation of light and spatial modes in optical fibers
Fiber laser physics fundamentals
Main fiber laser operational regimes
Main optical components for fiber lasers and fiber amplifiers design
High power fiber lasers
Fiber lasers industrial
ISBN:9783319023380
Series:eBooks
Series:SpringerLink
Series:Springer Series in Optical Sciences, 0342-4111 : v181
Series:Physics and Astronomy (Springer-11651)
Keywords: Engineering , Microwaves
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Call number:SPRINGER-2014-9783319021089:ONLINE Show nearby items on shelf
Title:Photonics [electronic resource] : A Short Course
Author(s): Vittorio Degiorgio
Ilaria Cristiani
Date:2014
Publisher:Cham : Springer International Publishing : Imprint: Springer
Size:1 online resource
Note:This book will serve as a concise, self-contained, up-to-date introduction to Photonics, to be used as a textbook for undergraduate students or as a reference book for researchers and professionals. Blending theory with technicaldescriptions, the boo k covers a wide range of topics, including the general mechanism of laser action, continuous and pulsed laser operation, optical propagation in isotropic and anisotropic media, operating principles and structure ofpassive optical components, electro-optic al and acousto-optical modulation, solid-state lasers, semiconductor lasers and LEDs, nonlinear optics, and optical fiber components and devices.. The book concludes with an overview ofapplications, including optical communications, telemetry and sensing, industrial and biomedical applications, solid-state lighting, displays, and photovoltaics
Contents:From the Contents: Photonics. A short course
The laser
Spectrum of electromagnetic waves
Propagation of electromagnetic waves
Waves in vacuum
Optical components
Waves in matter
Dispersive medium
Modulation
Linear electro
optic effect
Semiconductor devices
Semiconductor laser
Optical fibers
Properties of optical fibers
Applications
Information and communication technologies
ISBN:9783319021089
Series:eBooks
Series:SpringerLink
Series:Undergraduate Lecture Notes in Physics, 2192-4791
Series:Physics and Astronomy (Springer-11651)
Keywords: Microwaves , Optical materials
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Call number:SPRINGER-2013-9783642367052:ONLINE Show nearby items on shelf
Title:Organic Solid-State Lasers [electronic resource]
Author(s): Sbastien Forget
Sbastien Chnais
Date:2013
Publisher:Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Organic lasers are broadly tunable coherent sources, potentially compact, convenient and manufactured at low-costs. Appeared in the mid 60s as solid-state alternatives for liquid dye lasers, they recently gained a newdimension after the demonstration of organic semiconductor lasers in the 90's. More recently, new perspectives appeared at the nanoscale, with organic polariton and surface plasmon lasers. After a brief reminder to laser physics, afirst chapter exposes what makes organic solid-state orga nic lasers specific. The laser architectures used in organic lasers are then reviewed, with a state-of-the-art review of the performances of devices with regard to output power,threshold, lifetime, beam quality etc. A survey of the recent trends in the fi eld is given, highlighting the latest developments with a special focus on the challenges remaining for achieving direct electrical pumping of organicsemiconductor lasers. A last chapter covers the applications of organic solid-state lasers
Note:Springer eBooks
Contents:Fundamentals of laser physics
Organic materials for solid
state lasers
Organic Lasers resonators
Prospects for electrical pumping
Organic lasers at the nanoscale
Applications of organic solid
state lasers
ISBN:9783642367052
Series:e-books
Series:SpringerLink (Online service)
Series:Springer Series in Optical Sciences, 0342-4111 : v175
Series:Physics and Astronomy (Springer-11651)
Keywords: Chemistry, Physical organic , Microwaves , Optical materials
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Call number:SPRINGER-2012-9783642235658:ONLINE Show nearby items on shelf
Title:Basics of Laser Physics [electronic resource] : For Students of Science and Engineering
Author(s): Karl F Renk
Date:2012
Publisher:Berlin, Heidelberg : Springer Berlin Heidelberg
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Basics of Laser Physics provides an introductory presentation of the field of all types of lasers. It contains a general description ofthe laser, a theoretical treatment and a characterization of its operation as it deals withgas, solid state, free-e lectron and semiconductor lasers and, furthermore, with a few laser related topics. The different subjects are connected to each other by the central principleof the laser, namely, that it is aself-oscillating system. Special emphasis is put on a uniform treatment of gas and solid-state lasers, on the one hand, and semiconductor lasers, on the other hand. The discussions and the treatment of equations are presented in a waythat a reader can immediately follow. The book addresses undergraduate and graduate students of science and engineering.Not only should it enable instructorstoprepare their lectures, but it canbe helpful to studentsforpreparing for an examination
Note:Springer eBooks
Contents:Part I General description of a laser and an example
Laser principle
Fabry
Perot resonator
The active medium: energy levels and line broadening
Titanium
sapphire laser
Part II Theoretical basis of the laser
Basis of the theory of the laser: the Einstein coefficients
Amplification of coherent radiation
Laser theory
Polarization and current in a laser medium
Part III Operation of a laser
Cavity resonator
Open resonator
Different ways of operation of a laser
Femtosecond laser
Part IV Types of lasers (except semiconductor lasers)
Solid state laser
ISBN:9783642235658
Series:e-books
Series:SpringerLink (Online service)
Series:Graduate Texts in Physics, 1868-4513
Series:Physics and Astronomy (Springer-11651)
Keywords: Structural control (Engineering) , Microwaves
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Call number:SPRINGER-2012-9783642227899:ONLINE Show nearby items on shelf
Title:Nonlinear Optics and Solid-State Lasers [electronic resource] : Advanced Concepts, Tuning-Fundamentals and Applications
Author(s): Jianquan Yao
Yuyue Wang
Date:2012
Publisher:Berlin, Heidelberg : Springer Berlin Heidelberg
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:This book covers the complete spectrum of nonlinear optics and all solid state lasers.The book integrates theory, calculations and practical design, technology, experimental schemes and applications. With the expansion and furtherdevelopment of Laser technology, the wavelength spectrum of Lasers had to be enlarged, even to be tunable which requires the use of nonlinear optical and Laser tunable technology. It systematically summarizes and integrates theanalysis of international achievements within th e last 20 years in this field. It will be helpful for university teachers, graduate students as well as engineers
Note:Springer eBooks
Contents:Preface
Theoretic Analysis and Calculation of Three
wave Interaction in Nonlinear Optical Crystals
Nonlinear Optics Mixing Theory
Theory and Technology of Frequency
doubling Lasers and Frequency Mixing
Optical Parametric Oscillators (OPO)
Quasi
phase Matching Technology (QPM)
Principle, Device and Technology of DPL
RGB
DPL and High Power DPL
Solid Tunable Laser Technology
Tunable Titanium Doped Sapphire Laser
Other Laser Tunable Technologies
ISBN:9783642227899
Series:e-books
Series:SpringerLink (Online service)
Series:Springer Series in Optical Sciences, 0342-4111 : v164
Series:Physics and Astronomy (Springer-11651)
Keywords: Microwaves
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Call number:SPRINGER-2012-9783642227882:ONLINE Show nearby items on shelf
Title:Nonlinear Optics and Solid-State Lasers [electronic resource]
Author(s): Jianquan Yao
Yuyue Wang
Date:2012
Publisher:Springer Berlin Heidelberg
Size:1 online resource
Note:Monograph
Note:Springer 2012 Physics and Astronomy eBook collection
Note:Springer e-book platform
ISBN:9783642227882
Series:Springer Series in Optical Sciences
Series:e-books
Keywords: Laser Technology, Photonics , Quantum Optics , Microwaves, RF and Optical Engineering , Optics, Optoelectronics, Plasmonics and Optical Devices , Semiconductors
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Call number:SPRINGER-2009-9783642014796:ONLINE Show nearby items on shelf
Title:Solid-State Spectroscopy [electronic resource] : An Introduction
Author(s): Hans Kuzmany
Date:2009
Publisher:Berlin, Heidelberg : Springer Berlin Heidelberg
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Spectroscopic methods have opened up a new horizon in our knowledge of solid-state materials. Numerous techniques using electromagnetic radiation or charged and neutral particles have been invented and worked out to a high levelin order to provide mo re detailed information on the solids. The text presented here is an updated description of such methods as they were originally presented in the first edition. It covers linear response of solids toelectromagnetic radiation in a frequency range extending from megahertz or gigahertz as used in spin resonance spectroscopy, to infrared spectroscopy and various forms of spectroscopy in the visible and near visible spectral range. Itextends to spectroscopy in the UV and x-ray spectral range and eventually sev eral spectroscopic methods are addressed in the frequency range of g radiation. Likewise linear response to irradiation with particles such as electrons,positrons, muons, neutrons, and atoms is discussed. Instrumental and technical background is provided as well as application to the analysis of the solid state. New developments especially addressed in this second edition cover theexciting new field of mesoscopic and nanoscopic solids using light scattering from small particles, single electron (addition) spectroscopy, and quantization in magnetic fields. Likewise, the development and application of synchrotronradiation has encountered a dramatic progress particularly in the field of high resolution and angular resolved photoelectron spectroscopy. Free el ectron lasers from undulators in linear accelerators are becoming available withdramatic enhancement in brightness and provide a fourth generation of synchrotron light sources. The better understanding and the possibilities to manipulate spin states as it happens in spintronic research stimulated sophisticatedtechnologies in electron and nuclear spin resonance which are also covered in the new edition. Breakthrough developments were obtained in the fiel
Note:Springer eBooks
Contents:Introduction
Electromagnetic Radiation
Light Sources with General Application
Spectral Analysis of Light
Detection of Electromagnetic Radiation
The Dielectric Response Functions
Spectroscopy in the Visible and Near
Visible Spectral Range
Symmetry, and Selection Rules
Light Scattering Spectroscopy
Infrared Spectroscopy
Magnetic Resonance Spectroscopy
Ultraviolet and X
Ray Spectroscopy
Spectroscopy with Gamma Rays
Generalized Form of Response Functions
Spectroscopy with Electrons, Positrons and Myons
Spectroscopy of Mesoscopic and Nanoscopic Solids
ISBN:9783642014796
Series:e-books
Series:SpringerLink (Online service)
Series:Physics and Astronomy (Springer-11651)
Keywords: Biochemistry
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Call number:SPRINGER-2006-9783540365266:ONLINE Show nearby items on shelf
Title:Inelastic Light Scattering of Semiconductor Nanostructures [electronic resource] : Fundamentals and Recent Advances
Author(s): Christian Schller
Date:2006
Publisher:Berlin, Heidelberg : Springer Berlin Heidelberg
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Semiconductor nanostructures are a field of enormous and still-growing research interest. On one hand, they are already realized in mass products, e.g., in high-electron-mobility field-effect transistors and quantum-well lasers.On the other hand, the y allow, in specially tailored systems, the investigation of fundamental properties, such as many-particle interactions of electrons in reduced dimensions. This book attempts to fill the gap between generalsemiconductor textbooks and research articles. It provides (i) an introduction into the basic concepts of inelastic light scattering on semiconductor nanostructures and into their fabrication and basic properties, and, (ii) adescription of the most striking recent advances in this field. Each chapter is as self-contained as possible. The monograph should interest researchers, experimentalists as well as theorists, and research students working in thefield. It should also be interesting for graduate students with knowledge in solid-state physics and quan tum mechanics who are interested in optical spectroscopies of semiconductors
Note:Springer eBooks
Contents:Introduction
Part I Basic Concepts: Fundamentals of Semiconductors and Nanostructures
Electronic Elementary Excitations
Basic Concepts of Inelastic Light Scattering, Experiments on Quantum Wells
Part II Recent Advances: Quantum Dots: Spectroscopy of Artificial Atoms
Quantum Wires: Interacting Quantum Liquids
Tunneling
Coupled Systems
Inelastic Light Scattering in Microcavities
Part III Appendix: A Kronecker Products of Dipole Matrix Elements I
B Kronecker Products of Dipole Matrix Elements II
ISBN:9783540365266
Series:e-books
Series:SpringerLink (Online service)
Series:Springer Tracts in Modern Physics, 0081-3869 : v219
Series:Physics and Astronomy (Springer-11651)
Keywords: Chemistry , Optical materials
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Call number:SPRINGER-2006-9780387293387:ONLINE Show nearby items on shelf
Title:Solid-State Laser Engineering [electronic resource]
Author(s): Walter Koechner
Date:2006
Publisher:New York, NY : Springer New York
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Written from an industrial perspective, Solid-State Laser Engineering discusses in detail the characteristics, design, construction, and performance of solid-state lasers. Emphasis is placed on engineering and practicalconsiderations phenomenological aspects using models are preferred to abstract mathematical derivations. Since its first edition almost 30 years ago this book has become the standard in the field of solid-state lasers forscientists,engineers and graduate students. This new edition has been extensively revised and updated to account for recent developments in the areas of diode-laser pumping, laser materials and nonlinear crystals. Completely newsections have been added dealing with frequency control, the theory of mode-locking, femto s econd lasers, high efficiency harmonic generation, passive and acousto-optic Q-switching, semiconductor saturable absorber mirrors (SESAM) andperidically poled nonlinear crystals
Note:Springer eBooks
Contents:Energy Transfer between Radiation and Atomic Transitions
Properties of Solid
State Laser Materials
Laser Oscillator
Laser Amplifier
Optical Resonator
Optical Pump Systems
Thermal Optic Effects
Q
Switching
Mode
locking
Nonlinear Devices
Damage of Optical Elements
ISBN:9780387293387
Series:e-books
Series:SpringerLink (Online service)
Series:Springer Series in Optical Sciences, 0342-4111 : v1
Series:Physics and Astronomy (Springer-11651)
Keywords: Particles (Nuclear physics) , Laser physics , Microwaves
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Call number:SPRINGER-2005-9780387251059:ONLINE Show nearby items on shelf
Title:Solid-State Random Lasers [electronic resource]
Author(s): Mikhail A Noginov
Date:2005
Publisher:New York, NY : Springer New York
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Random lasers are the simplest sources of stimulated emission without cavity, with the feedback provided by scattering in a gain medium. First proposed in the late 60s, random lasers have grown to a large research field. Thisbook reviews the history and the state of the art of random lasers, provides an outline of the basic models describing their behavior, and describes the recent advances in the field. The major focus of the book is on solid-state randomlasers. However, it also briefly describes ra ndom lasers based on liquid dyes with scatterers. The chapters of the book are almost independent of each other. So, the scientists or engineers interested in any particular aspect of randomlasers can read directly the relevant section. Researchers enteri ng the field of random lasers will find in the book an overview of the field of study. Scientists working in the field can use the book as a reference source
Note:Springer eBooks
Contents:Lasers with Nonresonant Feedback and Laserlike Emission from Powders: Early Ideas and Experiments
Neodymium Random Lasers: Experimental Studies of Stimulated Emission
Propagation of Light in Neodymium Random Lasers
Theoretical Modeling of Neodymium Random Lasers
Engineering Aspects of Neodymium Random Lasers: External Seeding, Design, and Second Harmonic Generation
Random Lasers Pumped with Electron Beam
Semiconductor Random Lasers
Dye and Polymer Random Lasers
Other Types of Solid
State Random Lasers
Applications of Random Lasers
ISBN:9780387251059
Series:e-books
Series:SpringerLink (Online service)
Series:Springer Series in Optical Sciences, 0342-4111 : v105
Series:Physics and Astronomy (Springer-11651)
Keywords: Condensed matter , Quantum optics
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Call number:SPRINGER-2004-9783540398493:ONLINE Show nearby items on shelf
Title:Few-Cycle Laser Pulse Generation and Its Applications
Author(s):
Date:2004
Size:1 online resource (448 p.)
Note:10.1007/b88427
Contents:Part I: Few-Cycle Pulse Generation: Theory and Experiments -- Solid-State Materials for Few-Cycle Pulse Generation and Amplification -- Few-Cycle Pulses Directly from the Laser -- Few-Cycle Pulses by External Compression -- Parametric
Amplification and Phase Control of Few-Cycle Light Pulses -- Part II: Characterization of Ultrashort Laser Pulses: Measuring Ultrashort Pulses in the Single-Cycle Regime -- Characterization of Ultrashort Pulses in the Few-Cycle Regime
Using Spectral Phase Interferometry for Direct Electric Field Reconstruction -- Part III: Applications: Optical Frequency-Comb Generation and High-Resolution Laser Spectroscopy -- Carrier-Envelope Phase Stabilization of Single and
Multiple Femtosecond Lasers -- Sub-Femtosecond XUV-Pulses: Attosecond Metrology and Spectroscopy -- Resonant Non-Perturbative Extreme Nonlinear Optics with Two-Cycle Pulses -- Dynamics of the Photoexcited Hydrated Electron -- Subject
Index
ISBN:9783540398493
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Topics in Applied Physics: 95
Keywords: Physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Engineering , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices , Laser Technology, Photonics , Engineering, general
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Call number:SPRINGER-2003-9783540391807:ONLINE Show nearby items on shelf
Title:Single Quantum Dots Fundamentals, Applications, and New Concepts
Author(s):
Date:2003
Size:1 online resource (352 p.)
Note:10.1007/b13751
Contents:Epitaxial Growth and Electronic Structure of Self-Assembled Quantum Dots -- Electronic Properties of Self-Assembled Quantum Dots -- Exciton Complexes in Self-Assembled In(Ga)As/GaAs Quantum Dots -- Optical Spectroscopy of Epitaxially
Grown II-VI Single Quantum Dots -- Quantum-Dot Lasers -- Dephasing Processes and Carrier Dynamics in (In,Ga)As Quantum Dots -- Solid-State Cavity-Quantum Electrodynamics with Self-Assembled Quantum Dots -- Nonclassical Light from
Single Semiconductor Quantum Dots -- Subject Index
ISBN:9783540391807
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Topics in Applied Physics: 90
Keywords: Physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Electronics , Microelectronics , Physics , Laser Technology, Photonics , Electronics and Microelectronics, Instrumentation , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-2003-9783540364917:ONLINE Show nearby items on shelf
Title:Solid-State Mid-Infrared Laser Sources
Author(s):
Date:2003
Size:1 online resource (557 p.)
Note:10.1007/3-540-36491-9
Contents:Mid-Infrared 2—5 ?m Heterojunction Laser Diodes -- High Performance Quantum Cascade Lasers and Their Applications -- Mid-IR Difference Frequency Generation -- Pulsed Mid-IR Optical Parametric Oscillators -- Mid-Infrared Ultrafast and
Continuous- Wave Optical Parametric Oscillators -- Mid-Infrared Fiber Lasers -- Crystalline Mid-Infrared Lasers -- Crystalline and Fiber Raman Lasers -- Narrow-Linewidth Tunable Terahertz-Wave Sources Using Nonlinear Optics --
Mid-Infrared and THz Coherent Sources Using Semiconductor-Based Materials -- Mid-Infrared Laser Applications in Spectroscopy -- Mid-IR Laser Applications in Medicine
ISBN:9783540364917
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Topics in Applied Physics: 89
Keywords: Physics , Solid state physics , Lasers , Photonics , Spectroscopy , Microscopy , Engineering , Physics , Laser Technology, Photonics , Solid State Physics , Spectroscopy and Microscopy , Engineering, general
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Call number:SPRINGER-2003-9780387217659:ONLINE Show nearby items on shelf
Title:Solid-State Lasers A Graduate Text
Author(s): Walter Koechner
Date:2003
Size:1 online resource (409 p.)
Note:10.1007/b97423
Contents:Overview of the History, Performance Characteristics, and Applications of Solid-State Lasers -- Energy Transfer Between Radiation and Atomic Transitions -- Properties of Solid-State Laser Materials -- Laser Oscillator -- Laser
Amplifier -- Optical Resonator -- Optical Pump Systems -- Thermo-Optic Effects -- Q-Switching -- Mode-Locking -- Nonlinear Devices
ISBN:9780387217659
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Quantum optics , Solid state physics , Lasers , Photonics , Spectroscopy , Microscopy , Microwaves , Optical engineering , Physics , Laser Technology, Photonics , Solid State Physics , Spectroscopy and Microscopy , Quantum Optics , Microwaves, RF and Optical Engineering
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Call number:SPRINGER-2001-9783540465850:ONLINE Show nearby items on shelf
Title:Solid-State Lasers for Materials Processing Fundamental Relations and Technical Realizations
Author(s): Reinhard Iffländer
Date:2001
Size:1 online resource (353 p.)
Note:10.1007/978-3-540-46585-0
Contents:I Theoretical Background -- 1 Fundamentals of Solid-State Lasers -- 2 Gaussian Optics -- 3 Resonators -- 4 Thermal Effects -- II Technical Realization -- 5 Beam Source -- 6 Gas Discharge Lamps -- 7 Excitation by Diodes -- 8 Electrical
Circuits -- 9 Optics -- 10 Material Processing. -- III Data and Specifications -- 11 Laser Materials -- 12 Laser Crystals -- 13 Laser Glasses -- 14 Material Data -- 15 Tables and Constants -- References
ISBN:9783540465850
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Optical Sciences: 77
Keywords: Physics , Optics , Electrodynamics , Lasers , Photonics , Physical measurements , Measurement , Engineering , Materials science , Physics , Optics and Electrodynamics , Laser Technology, Photonics , Measurement Science and Instrumentation , Engineering, general , Characterization and Evaluation of Materials
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Call number:SPRINGER-2001-9783540408949:ONLINE Show nearby items on shelf
Title:Directions in Quantum Optics A Collection of Papers Dedicated to the Memory of Dan Walls Including Papers Presented at the TAMU-ONR Workshop Held at Jackson, Wyoming, USA, 26–30 July 1999
Author(s):
Date:2001
Publisher:Berlin, Heidelberg : Springer Berlin Heidelberg
Size:1 online resource (372 p.)
Note:10.1007/3-540-40894-0
Contents:Bose-Einstein Condensation -- Density Oscillations in Trapped Bose Condensates at Finite Temperature -- Coherent Vortex Dynamics in Two- and Three-Dimensional Bose-Einstein Condensates -- Quasicondensate Droplet Formation in Hydrogen
-- Polarization Decay in a BCS Paired Fermi Gas -- A Model of a Pumped Continuous Atom Laser -- The BEC Near a Feshbach Resonance: A Superfluid of Mutually Coherent Condensates -- Collisional and Collapse Dynamics of a Twin
Bose-Einstein Condensate with Negative Scattering Length -- Schrödinger Cat State of a Bose—Einstein Condensate in a Double-Well Potential -- Quantum Interference and Atom Optics -- A Historical Perspective on Lasing Without Inversion
-- The Coherent-Path Approach to Forward Scattering of Recoil-Free Resonant Gamma Radiation -- Parametric Amplification of Coupled Atomic and Optical Fields -- Quantum and QED Effects on Reflection from an Atomic Mirror -- Atom Wave
Lithography via Adiabatic Passage in Multilevel Systems -- Quantum Information -- Qudit Entanglement -- Grover’s Algorithm for Multiobject Search in Quantum Computing -- New Tests of Macroscopic Local Realism -- Teleportation Criteria:
Form and Significance -- Quantum Information Processing Based on Cavity QED with Mesoscopic Systems -- Quantum State Protection Using All-Optical Feedback -- Cavity QED and Nonlinear Optics -- Single-Photon Nonlinear Optics and Quantum
Control -- Normal-Mode Coupling of Excitons and Photons in Laterally Confined Nanocavities — Toward the Quantum Statistical Limit -- Cavity QED with Many Atoms -- The Photonic Band Gap Laser: The Role of Spontaneous Emission in the
Theory of Solid-State Lasers and LEDs -- Superradiant and Subradiant Behavior of the Overdamped Many-Atom Micromaser -- Bifurcations to Cooperative States in Arrays of Coupled Nonlinear Optical Oscillators -- Quantum Noise Processes --
Nonlinear Quantum Fluctuations in the Parametric Amplifier -- Quantum Phase Transitions in a Linear Ion Trap -- Quantum Noise Transfer Functions: A Practical Tool in Quantum Optics -- Self-Consistency of Thermal Jump Trajectories --
Complementarity in Spontaneous Emission: Quantum Jumps, Staggers and Slides -- Ergodicity of Quantum Trajectory Detection Records
ISBN:9783540408949
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Lecture Notes in Physics: 561
Keywords: Physics , Quantum optics , Lasers , Photonics , Physics , Laser Technology, Photonics , Quantum Optics
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Call number:SPRINGER-2001-9781461513735:ONLINE Show nearby items on shelf
Title:Problems in Laser Physics
Author(s): G Cerullo
Date:2001
Size:1 online resource (308 p.)
Note:10.1007/978-1-4615-1373-5
Contents:1. Introductory Concepts -- 2. Interaction of Radiation with Atoms and Ions -- 3. Energy Levels, Radiative, and Nonradiative Transitions in Molecules and Semiconductors -- 4. Ray and Wave Propagation through Optical Media -- 5.
Passive Optical Resonators -- 6. Pumping Processes -- 7. Continuous Wave Laser Behavior -- 8. Transient Laser Behavior -- 9. Solid-State, Dye, and Semiconductor Lasers -- 10. Gas, Chemical, Free-Electron, and X-Ray Lasers -- 11.
Properties of Laser Beams -- 12. Laser Beam Transformation: Propagation, Amplification, Frequency Conversion, Pulse Compression, and Pulse Expansion
ISBN:9781461513735
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Condensed matter , Optics , Optoelectronics , Plasmons (Physics) , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices , Condensed Matter Physics
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Call number:SPRINGER-2000-9783540478522:ONLINE Show nearby items on shelf
Title:High-Power Diode Lasers Fundamentals, Technology, Applications: With Contributions by Numerous Experts
Author(s):
Date:2000
Size:1 online resource (416 p.)
Note:10.1007/3-540-47852-3
Contents:to Power Diode Lasers -- Dynamics of High-Power Diode Lasers -- Epitaxy of High-Power Diode Laser Structures -- GaAs Substrates for High-Power Diode Lasers -- High-Power Broad-Area Diode Lasers and Laser Bars -- Properties and
Frequency Conversion of High-Brightness Diode-Laser Systems -- Tapered High-Power, High-Brightness Diode Lasers: Design and Performance -- Cooling and Packaging of High-Power Diode Lasers -- High-Power Diode Lasers for Direct
Applications -- New Concepts for Diode-Pumped Solid-State Lasers
ISBN:9783540478522
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Topics in Applied Physics: 78
Keywords: Physics , Lasers , Photonics , Physics , Laser Technology, Photonics
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Call number:SPRINGER-1999-9783662142196:ONLINE Show nearby items on shelf
Title:Solid-State Laser Engineering
Author(s): Walter Koechner
Date:1999
Edition:Fifth Revised and Updated Edition
Size:1 online resource (747 p.)
Note:10.1007/978-3-662-14219-6
Contents:1. Introduction -- 2. Properties of Solid-State Laser Materials -- 3. Laser Oscillator -- 4. Laser Amplifier -- 5. Optical Resonator -- 6. Optical Pump Systems -- 7. Thermo-Optic Effects and Heat Removal -- 8. Q-Switching -- 9. Mode
Locking -- 10. Nonlinear Devices -- 11. Damage of Optical Elements -- Appendix A Laser Safety -- Appendix B Conversion Factors and Constants -- References
ISBN:9783662142196
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Optical Sciences: 1
Keywords: Physics , Solid state physics , Lasers , Photonics , Spectroscopy , Microscopy , Microwaves , Optical engineering , Physics , Laser Technology, Photonics , Solid State Physics , Spectroscopy and Microscopy , Microwaves, RF and Optical Engineering
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Call number:SPRINGER-1998-9781475762662:ONLINE Show nearby items on shelf
Title:Principles of Lasers
Author(s): Orazio Svelto
Date:1998
Edition:Fourth Edition
Size:1 online resource (605 p.)
Note:10.1007/978-1-4757-6266-2
Contents:1. Introductory Concepts -- 2. Interaction of Radiation with Atoms and Ions -- 3. Energy Levels, Radiative, and Nonradiative Transitions in Molecules and Semiconductors -- 4. Ray and Wave Propagation through Optical Media -- 5.
Passive Optical Resonators -- 6. Pumping Processes -- 7. Continuous Wale Laser Behavior -- 8. Transient Laser Behavior -- 9. Solid-State, Dye, and Semiconductor Lasers -- 10. Gas, Chemical, Free-Electon, and X-Ray Lasers -- 11.
Properties of Laser Beams -- 12. Laser Beam Transformation: Propagation, Amplification, Frequency Conversion, Pulse Compression, and Pulse Expansion -- Appendixes -- A. Semiclassical Treatment of the Interaction of Radiation and Matter
-- B. Lineshape Calculation for Collision Broadening -- C. Simplified Treatment of Amplified Spontaneous Emission -- References -- D. Calculation of the Radiative Transition Rates of Molecular Transitions -- E. Space-Dependent Rate
Equations -- E.1. Four-Level Lasers -- E.2. Quasi-Three-Level Lasers -- F. Mode-Locking Theory: Homogeneous Line -- F.1. Active Mode Locking -- F.2. Passive Mode Locking -- References -- G. Propagation of a Laser Pulse through a
Dispersive Medium or a Gain Medium -- Reference -- H. Higher-Order Coherence -- I. Physical Constants and Useful Conversion Factors -- Answers to Selected Problems -- Inder
ISBN:9781475762662
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Quantum optics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Microwaves , Optical engineering , Physics , Laser Technology, Photonics , Quantum Optics , Optics, Optoelectronics, Plasmonics and Optical Devices , Microwaves, RF and Optical Engineering
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Call number:SPRINGER-1994-9781461525608:ONLINE Show nearby items on shelf
Title:Frontiers of Fundamental Physics
Author(s):
Date:1994
Size:1 online resource (601 p.)
Note:10.1007/978-1-4615-2560-8
Contents:Empirical Evidence on the Creation of Galaxies and Quasars -- Periodicity in Extragalactic Redshifts -- Quasar Spectra: Black Holes or Nonstandard Models? -- Configurations and Redshifts of Galaxies -- Isominkowskian Representation of
Cosmological Redshifts and the Internal Red-Blue-Shifts of Quasars -- The Relativistic Electron Pair Theory of Matter and its Implications for Cosmology -- Are Quasars Manifesting a de Sitter Redshift? -- What, if Anything, Is the
Anthropic Cosmological Principle Telling Us? -- Large Anomalous Redshifts and Zero-Point Radiation -- Theoretical Basis for a Non-Expanding and Euclidean Universe -- Light Propagation in an Expanding Universe -- Fornax - The Companion
of the Milky Way and the Question of Its Standard Motion -- Cosmological Redshifts and the Law of Corresponding States -- Did the Apple Fall? -- Investigations with Lasers, Atomic Clocks and Computer Calculations of Curved Spacetime
and of the Differences between the Gravitation Theories of Yilmaz and of Einstein -- Gravity Is the Simplest Thing! -- Fourdimensional Elasticity: Is It General Relativity? -- Universality of the Lie-Isotopic Symmetries for Deformed
Minkowskian Metrics -- Hertz’s Special Relativity and Physical Reality -- From Relativistic Paradoxes to Absolute Space and Time Physics -- Theories Equivalent to Special Relativity -- The Physical Meaning of Albert Einstein’s
Relativistic Ether Concept -- The Limiting Nature of Light-Velocity as the Causal Factor Underlying Relativity -- The Ether Revisited -- What Is and What Is Not Essential in Lorentz’s Relativity -- Vacuum Substratum in Electrodynamics
and Quantum Mechanics Theory and Experiment -- The Influence of Idealism In 20th Century Science -- Creeds of Physics -- Earth Complexity vs. Plate Tectonic Simplicity -- An Evolutionary Earth Expansion Hypothesis -- Global Models of
the Expanding Earth -- An Orogenic Model Consistent with Earth Expansion -- Earth Expansion Requires Increase in Mass -- Principles of Plate Movements on the Expanding Earth -- The Origin of Granite and Continental Masses in an
Expanding Earth -- The Primordially Hydridic Character of Our Planet and Proving It by Deep Drilling -- Possible Relation between Earth Expansion and Dark Matter -- Earth Expansion and the Prediction of Earthquakes and Volcanicism --
Tension-Gravitational Model of Island Arcs -- Electromagnetic Interactions and Particle Physics -- Isotopic and Genotopic Relativistic Theory -- A Look at Frontiers of High Energy Physics: From the GeV(109eV) to PeV(1015eV) and Beyond
-- An Approach to Finite-Size Particles with Spin -- A New High Energy Scale? -- On the Space-Time Structure of the Electron -- Physics without Physical Constants -- The Relation between Information, Time and Space Inferred from
Universal Phenomena in Solid-State Physics -- Quantum-Like Behaviour of Charged Particles in a Magnetic Field and Observation of Discrete Forbidden States in the Classical Mechanical Domain -- Unipolar Induction and Weber’s
Electrodynamics -- Impact of Maxwell’s Equation of Displacement Current on Electromagnetic Laws and Comparison of the Maxwellian Waves with Our Model of Dipolic Particles -- Direct Calculation of H and the Complete Self Energy of the
Electron from Fluid Models -- Interbasis “Sphere-Cylinder” Expansions for the Oscillator in the Three Dimensional Space of Constant Positive Curvature -- Pancharatnam’s Topological Phase in Relation to theDynamical Phase in
Polarization Optics -- On the Connection between Classical and Quantum Mechanics -- Discrete Time Realizations of Quantum Mechanics and Their Possible Experimental Tests -- Heraclitus’ Vision - Schrödinger’s Version -- Is It Possible
to Believe in both Orthodox Quantum Theory and History? -- A New Logic for Quantum Mechanics? -- Dangerous Effects of the Incomprehensibility in Microphysics -- Classical Interpretation of Quantum Mechanics -- Rabi Oscillations
Described by de Broglian Probabilities -- A Test of the Complementarity Principle in Single-Photon States of Light -- Experiments with Entangled Two-Photon States from Type-II Parametric Down Conversion: Evidence for Wave-Particle
Unity -- Correlation Functions and Einstein Locality -- Optical Tests of Bell’s Inequalities. Closing the Poor Correlation Loophole -- Atomic Cascade Experiments with Two-Channel Polarizers and Quantum Mechanical Nonlocality -- New
Tests on Locality and Empty Waves -- Wave-Particle Duality -- Quantum Correlations from a Logical Point of View -- Local Realism and the Crucial Experiment -- The Space of Local Hidden Variables Can Limit Non-Locality And What Next? --
How the Quantum of Action Cannot Be a Metric one -- The Ghostly Solution of the QuantumParadoxes and Its Experimental Verification
ISBN:9781461525608
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Gravitation , Observations, Astronomical , Astronomy , Nuclear physics , Heavy ions , Hadrons , Atoms , Physics , Astronomy, Observations and Techniques , Classical and Quantum Gravitation, Relativity Theory , Atomic, Molecular, Optical and Plasma Physics , Nuclear Physics, Heavy Ions, Hadrons
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Call number:SPRINGER-1993-9781461529989:ONLINE Show nearby items on shelf
Title:Solid State Lasers New Developments and Applications
Author(s):
Date:1993
Size:1 online resource (350 p.)
Note:10.1007/978-1-4615-2998-9
Contents:Resonator Designs for High Brightness Solid-State Lasers -- Defining and Measuring Laser Beam Quality -- Mode-Locked Solid State Lasers -- High Power Rod, Slab, and Tube Lasers -- Solid-State Laser Materials: Basic Properties and New
Developments -- Quantum Confined Semiconductor Lasers -- Diode Pumped Solid State Lasers -- Generation of Visible Light with Diode Pumped Solid State Lasers -- High Power Diode Lasers -- Efficient Narrowband Optical Parametric
Oscillators of Beta-Barium-Borate (BBO) and Lithium-Triborate (LBO) -- Travelling Wave Parametric Generation of Highly Coherent Femtosecond Pulses Tunable from 750 to 3000 nm -- Frequency Conversion of PS-Pulses: Tunable Pulses from
the UV to the Near Infrared -- Quasi-Three-Level Lasers -- Er, Tm, Ho: YLF Lasers in Astigmatically Compensated Resonators -- Color Center Lasers: State of the Art and Recent Developments -- Fibre Lasers -- The Role of Solid State
Lasers in Soft-X-Ray Projection Lithography -- Second Harmonic Generation and its Application to High Resolution Spectroscopy of Atomic Hydrogen -- Diode Lasers and Metrology -- Semiconductor Diode Lasers in Atomic Spectroscopy --
Overtone Molecular Spectroscopy with Diode Lasers -- Optical Frequency Metrology with Solid State Lasers -- Frequency Stabilized TI:Sapphire Laser for High Resolution Spectroscopy of Atomic Hydrogen
ISBN:9781461529989
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:NATO ASI Series, Series B: Physics: 317
Keywords: Physics , Atoms , Condensed matter , Solid state physics , Crystallography , Spectroscopy , Microscopy , Electrical engineering , Physics , Atomic, Molecular, Optical and Plasma Physics , Electrical Engineering , Solid State Physics , Spectroscopy and Microscopy , Condensed Matter Physics , Crystallography
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Call number:SPRINGER-1992-9783662145135:ONLINE Show nearby items on shelf
Title:Solid-State Laser Engineering
Author(s): Walter Koechner
Date:1992
Edition:Third Completely Revised and Updated Edition
Size:1 online resource (635 p.)
Note:10.1007/978-3-662-14513-5
Contents:1. Introduction -- 2. Properties of Solid-State Laser Materials -- 3. Laser Oscillator -- 4. Laser Amplifier -- 5. Optical Resonator -- 6. Optical Pump Systems -- 7. Heat Removal -- 8. Q-Switching -- 9. Mode Locking -- 10. Nonlinear
Devices -- 11. Damage of Optical Elements -- Appendix A -- Appendix B -- References
ISBN:9783662145135
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Optical Sciences: 1
Keywords: Physics , Quantum optics , Solid state physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Spectroscopy , Microscopy , Physics , Laser Technology, Photonics , Quantum Optics , Solid State Physics , Spectroscopy and Microscopy , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1992-9783540471653:ONLINE Show nearby items on shelf
Title:Tunable Lasers
Author(s):
Date:1992
Edition:Second Updated Edition
Size:1 online resource (1 p.)
Note:10.1007/3-540-55571-4
Contents:General principles and some common features -- Excimer lasers -- Four-wave frequency mixing in gases -- Stimulated Raman scattering -- Urea optical parametric oscillator for the visible and near infrared -- Color center lasers --
Fiber Raman lasers -- Tunable high-pressure infrared lasers -- Tunable paramagnetic-ion solid-state lasers -- Recent progress in tunable lasers
ISBN:9783540471653
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Topics in Applied Physics: 59
Keywords: Physics , Quantum optics , Lasers , Photonics , Engineering , Physics , Laser Technology, Photonics , Quantum Optics , Engineering, general
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Call number:SPRINGER-1990-9783642842696:ONLINE Show nearby items on shelf
Title:Ultrafast Phenomena VII Proceedings of the 7th International Conference, Monterey, CA, May 14–17, 1990
Author(s):
Date:1990
Size:1 online resource (554 p.)
Note:10.1007/978-3-642-84269-6
Contents:I Ultrashort Pulse Generation -- II High Intensity Sources and Interactions -- III Spectroscopic Techniques and Nonlinear Optics -- IV Nonlinear Effects in Optical Fibers -- V Optoelectronics -- VI Quantum Wells Reduced Dimensionality
-- VII Semiconductors Solid-State Physics -- VIII Coherent Phonons -- IX Superconductors -- X Interfaces and Surfaces -- XI Electron or Proton Transfer and Solvation -- XII Chemical Dynamics -- XIII Biology -- Index of Contributors
ISBN:9783642842696
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Chemical Physics: 53
Keywords: Physics , Physical chemistry , Quantum optics , Biophysics , Biological physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Engineering , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices , Laser Technology, Photonics , Quantum Optics , Physical Chemistry , Biophysics and Biological Physics , Engineering, general
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Call number:SPRINGER-1990-9783642753084:ONLINE Show nearby items on shelf
Title:Nonlinear Waves 3 Physics and Astrophysics Proceedings of the Gorky School 1989
Author(s):
Date:1990
Size:1 online resource (325 p.)
Note:10.1007/978-3-642-75308-4
Contents:I Physics and Astrophysics -- Magnetic Intermittency (With 2 Figures) -- The Large Scale Structure of the Universe, the Burgers Equation and Cellular Structures (With 3 Figures) -- Generation of Observation Turbulence Spectrum and
Solitary Dipole Vortices in Rotating Gravitating Systems (With 4 Figures) -- Nonlinear Dynamics of Particle-Like Solutions of Inhomogeneous Fields (With 18 Figures) -- The Turbulent Alfvén Layer (With 2 Figures) -- Frequency
Selfconversion and Reflectionless Propagation of a Powerful Electromagnetic Pulse in an Ionized Medium (With 1 Figure) -- Nonlinear Stability of an Ideal Plasma -- Dynamics of a High-Frequency Streamer (With 3 Figures) -- The
Propagation of the Front of Parametrically Excited Capillary Ripples (With 4 Figures) -- Nonlinear Surface and Internal Waves in Rotating Fluids (With 12 Figures) -- A Note on the Mechanism of the Resonant Nonlinear Instability in
Boundary Layers -- Stability of Quasi-Two-Dimensional Shear Flows and Jets in Rotating Fluids (With 5 Figures) -- On One Solution of the Nonlinear Problem of Electrodynamics (With 2 Figures) -- II Quantum Physics, Physics of the Solid
State -- Phenomenological Quantum Electrodynamics of Active Media and Superradiance (With 6 Figures) -- Light Amplification by a Three-Level Atomic System Without Population Inversion (With 2 Figures) -- On the Nonlinear Critical State
Dynamics in Type II Superconductors -- Nonlinear Dynamics of Electrons in Metals (With 1 Figure) -- The Outlook for Solid-State Lasers in the Laser Market (With 1 Figure) -- Autowave Mechanism in Low-Temperature Chemistry of Solids
(With 6 Figures) -- Coherent Amplification of Weak Pulses -- Nonlinear Dynamics and Kinetics of Magnons -- The Nonlinear Dynamics of Wave Systems with Spatio-Temporal Collapses (With 4 Figures) -- III Dynamical Chaos and
Self-Organization -- The Destiny of the Universality Hypothesis in the Theory of Developed Wave Turbulence -- Renormalization Chaos in Period Doubling Systems (With 10 Figures) -- On Resonances, Pendulum Equations, Limit Cycles and
Chaos (With 5 Figures) -- Synergetics. New Trends (With 7 Figures) -- Cellular Automata as Dynamical Systems -- An Approach to the Computation of the Topological Entropy (With 4 Figures) -- Stochastic Dynamics of Pattern Formation in
Discrete Systems (With 4 Figures) -- Chaos and Period Adding Sequence in a Microwave Oscillator with a Ferrite Resonator (With 3 Figures) -- Index of Contributors
ISBN:9783642753084
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Geophysics , Quantum physics , Observations, Astronomical , Astronomy , Astrophysics , Atoms , Statistical physics , Dynamical systems , Physics , Astronomy, Observations and Techniques , Astrophysics and Astroparticles , Geophysics/Geodesy , Statistical Physics, Dynamical Systems and Complexity , Atomic, Molecular, Optical and Plasma Physics , Quantum Physics
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Call number:SPRINGER-1989-9781461576709:ONLINE Show nearby items on shelf
Title:Principles of Lasers
Author(s): Orazio Svelto
Date:1989
Edition:Third Edition
Size:1 online resource (494 p.)
Note:10.1007/978-1-4615-7670-9
Contents:1. Introductory Concepts -- 1.1. Spontaneous and Stimulated Emission, Absorption -- 1.2. The Laser Idea -- 1.3. Pumping Schemes -- 1.4. Properties of Laser Beams -- 1.5. Organization of the Book -- Problems -- 2. Interaction of
Radiation with Matter -- 2.1. Introduction -- 2.2. Summary of Blackbody Radiation Theory -- 2.3. Absorption and Stimulated Emission -- 2.4. Spontaneous Emission -- 2.5. Nonradiative Decay -- 2.6. Saturation -- 2.7. Decay of a Many-Atom
System -- 2.8. Degenerate Levels -- 2.9. Molecular Systems -- Problems -- References -- 3. Pumping Processes -- 3.1. Introduction -- 3.2. Optical Pumping -- 3.3. Electrical Pumping -- Problems -- References -- 4. Passive Optical
Resonators -- 4.1. Introduction -- 4.2. Some Topics from Geometrical and Wave Optics -- 4.3. Photon Lifetime and Cavity Q -- 4.4. Plane-Parallel Resonator -- 4.5. Confocal Resonator -- 4.6. Gaussian Beam Propagation and the ABCD Law --
4.7. Generalized Spherical Resonator -- 4.8. Unstable Resonators -- Problems -- References -- 5. Continuous Wave and Transient Laser Behavior -- 5.1. Introduction -- 5.2. Rate Equations -- 5.3. CW Laser Behavior -- 5.4. Transient Laser
Behavior -- 5.5. Concluding Remarks -- Problems -- References -- 6. Types of Lasers -- 6.1. Introduction -- 6.2. Solid-State Lasers -- 6.3. Gas Lasers -- 6.4. Liquid Lasers (Dye Lasers) -- 6.5. Chemical Lasers -- 6.6. Semiconductor
Lasers -- 6.7. Color-Center Lasers -- 6.8. The Free-Electron Laser -- 6.9. X-Ray Lasers -- 6.10. Summary of Performance Data -- Problems -- References -- 7. Properties of Laser Beams -- 7.1. Introduction -- 7.2. Monochromaticity --
7.3. Complex Representation of Polychromatic Fields -- 7.4. Statistical Properties of Laser Light and Thermal Light -- 7.5. First-Order Coherence -- 7.6. Directionality -- 7.7. Laser Speckle -- 7.8. Brightness -- 7.9. Comparison
Between Laser Light and Thermal Light -- 7.10. Higher-Order Coherence -- Problems -- References -- 8. Laser Beam Transformation: Propagation, Amplification, Frequency Conversion, Pulse Compression -- 8.1. Introduction -- 8.2.
Transformation in Space: Gaussian Beam Propagation -- 8.3. Transformation in Amplitude: Laser Amplification -- 8.4. Frequency Conversion: Second-Harmonic Generation and Parametric Oscillation -- 8.5. Transformation in Time: Pulse
Compression -- Problems -- References -- Appendixes -- A Semiclassical Treatment of the Interaction of Radiation with Matter -- B Space-Dependent Rate Equations -- C Theory of Active Mode Locking for a Homogeneous Line -- D Physical
Constants -- Answers to Selected Problems
ISBN:9781461576709
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Keywords: Physics , Quantum physics , Physics , Quantum Physics
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Call number:SPRINGER-1988-9783662151433:ONLINE Show nearby items on shelf
Title:Solid-State Laser Engineering
Author(s): Walter Koechner
Date:1988
Edition:Second Completely Revised and Updated Edition
Size:1 online resource (607 p.)
Note:10.1007/978-3-662-15143-3
Contents:1. Introduction -- 2. Properties of Solid-State Laser Materials -- 3. Laser Oscillator -- 4. Laser Amplifier -- 5. Optical Resonator -- 6. Optical Pump System -- 7. Heat Removal -- 8. Q-Switches and External Switching Devices -- 9.
Mode Locking -- 10. Nonlinear Devices -- 11. Damage of Optical Elements -- Appendix A -- Appendix B -- References
ISBN:9783662151433
Series:eBooks
Series:SpringerLink (Online service)
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Series:Springer Series in Optical Sciences: 1
Keywords: Physics , Quantum optics , Solid state physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Spectroscopy , Microscopy , Physics , Laser Technology, Photonics , Quantum Optics , Solid State Physics , Spectroscopy and Microscopy , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1988-9781461573418:ONLINE Show nearby items on shelf
Title:Laser Optics of Condensed Matter
Author(s):
Date:1988
Size:1 online resource (564 p.)
Note:10.1007/978-1-4615-7341-8
Contents:Opening Remarks -- Section I Time Resolved Spectroscopy, Ultra-Fast Processes -- Spectroscopy with 6 Femtosecond Optical Pulses -- Hot Electrons in Semiconductors and Metals -- Laser Spectroscopy of Hot Photoluminescence in
Semiconductors: Energy Spectrum and Relaxation Times -- Static and Dynamic Cooling Rate of Photocreated Plasmas in Semiconductors -- GaSe Nonlinear Susceptibility and Relaxation Process Rates -- Picosecond Laser Studies of Collisional
Effects on Rotational Processes in Liquids -- Optical Manifestations of Energy and Phase Relaxation in Vibronic Systems -- Section II Two-Dimensional Systems, Quantum Wells, Heterolasers, Superlattices -- The Oscillations of
2D-Electron Density of States in a Transverse Magnetic Field -- Excitonic Optical Nonlinearities in Semiconductor Quantum Wells -- Excitons in Quantum Wells and Short Period Superlattices -- Recombination Processes in GaAs/AlGaAs
Multi-Quantum Well Structures -- Picosecond Raman and Luminescence Studies of Carrier Relaxation in Quantum Wells -- Gain Saturation and Features in Threshold Behaviour of AIIIBvHeterostructure Lasers -- Single-Frequency Diode Laser
with a High Temperature Stability of the Emission Line -- Raman Studies of Phonons in GaAs/AlGaAs Superlattices -- Section III Surface Optical Phenomena -- Optical Interactions at Rough Surfaces -- Nonlinear Distributed Coupling into
Guided Waves -- Bistability on a Surface in Nonlinear Diffraction -- Picosecond Nonlinear Optical Spectroscopy of Semiconductor Surface Structure Transformations -- Raman Scattering of Light from Coherently Excited Surface Polaritons
-- Resonant Raman Scattering as a Spectroscopic Probe of the Valence Electron Excitations of Adsorbates on Metals -- Laser-Stimulated Ionization and Desorption of Molecules in an Electric Field -- Section IV Optics of Small Particles,
Defects -- Nonlinear Optical Phenomena in Single Micron-Size Droplets -- Optical Spectroscopy of Size Effects in Semiconductor Microcrystals -- Cooperative Behavior of Configurational Dipole Defects in Plastic Deformed Semiconductor
Crystals -- Section V Photon Localization -- The Spectrum of Light Propagation Times through a Disordered Medium and Mesoscopic Fluctuations -- Photon Localization in Time and Space -- Classical Diffusive Photon Transport in a Slab --
Anderson Localization of Classical Photons in a Disordered Dieletric -- Section VI Light Scattering -- Electron Single-Particle Light Scattering in InP Crystals and in Mixed Crystals GaxIn1-xP -- Dynamical Light Scattering at the
Nonequilibrium Crystal-Melt Interface -- Selective Laser Heating and Nonlinear Light Scattering in a Homogeneous Medium -- Dynamic Central Modes and Photorefractive Effects at TI and Tc in Barium Sodium Niobate -- Are Phasons
Observable in Optics? -- Laser Spectroscopy of Fast KNO3 Ferroelectric Switches -- Inelastic Light Scattering by Magnons in Antiferromagnetic EuTe -- Spectroscopy of Mn04 and Mn024 Centers in Alkali Halide Crystals -- Section VII
Excitons, Polaritons -- Theory of Transient Optical Response and Pulse Propagation in Bounded Spatially Dispersive Media -- Picosecond Dynamics of Excitonic Polaritons in the Bottleneck Region -- Polariton Waves Near the Threshold for
Stimulated Scattering -- Quantum Fluctuations and Statistical Properties of Intense Polariton Waves -- Transport and Quantum Statistics of Excitons in Cu2° -- Study of Localized Excitons in Semiconductor Solid Solutions by Selective
Excitation -- Luminescence of Bound Excitons in Quasi-Two-Dimensional TlGaS2 Crystals -- Section VIII Photoactive Materials, Photorefraction, Hole-Burning, Holography -- Optically Dense Active Media of Solid-State Lasers -- Negative
Absolute Electrical Conductivity of Optically Excited Ruby: Microscopic Nature of the Phenomenon -- Theory and Observation of Electron-Hole Competition in the Photorefractive Effect -- Coherent Optical Oscillation Due to Vectorial
Four-Wave Mixing in Photorefractive Crystals -- Stimulated Photorefractive Scattering and Optical Phase Conjugation -- Dephasing of Impurities in Organic Glasses Between 0.04 and 1.5K via Spectral Hole Photoburning -- Photoburning of
Persistent Spectral Holes and Space-Time Domain Holography of Ultrafast Events of Nano- and Picosecond Duration -- Associative Space-and-Time Domain Holography of Picosecond Light Fields via Photochemical Hole Burning -- Study of Hot
Carrier Diffusion in Semiconductors by Transient Grating Techniques -- Pulsed Holographic Diagnostics of Electron-Hole Plasma in Semiconductors -- Section IX Optical Bistability in Semiconductors and Liquid Crystals -- GaAs Etalons and
Waveguides: Bulk Versus Multiple-Quantum-Well Material -- Resonant Nonlinearities and Optical Bistability in Semiconductors -- Monolithic Microresonator Arrays of Optical Switches -- Optical Bistability in Vacuum-Deposited
Semiconductor Fabry-Perot Interferometers -- Optical Bistability Without Optical Feedback and Absorption-Related Nonlinearities -- Optical Freedericksz Transitions and Associated Effects in Liquid Crystals -- Light-Induced
Self-Excitation of 3-D Orientational Gratings in Liquid Crystals -- Rotatory Instability of the Spatial Structure of Light Fields in Lonlinear Media with Two-Dimensional Feedback -- Intrinsic Optical Multistability and Instabilities in
Liquid Crystals -- Concluding remarks -- Participants -- Author Index
ISBN:9781461573418
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Keywords: Physics , Solid state physics , Spectroscopy , Microscopy , Physics , Solid State Physics , Spectroscopy and Microscopy
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Call number:SPRINGER-1987-9783662106358:ONLINE Show nearby items on shelf
Title:Tunable Lasers
Author(s):
Date:1987
Size:1 online resource (407 p.)
Note:10.1007/978-3-662-10635-8
Contents:1. General Principles and Some Common Features -- 2. Excimer Lasers -- 3. Four-Wave Frequency Mixing in Gases -- 4. Stimulated Raman Scattering -- 5. Urea Optical Parametric Oscillator for the Visible and Near Infrared -- 6. Color
Center Lasers -- 7. Fiber Raman Lasers -- 8. Tunable High-Pressure Infrared Lasers -- 9. Tunable Paramagnetic-Ion Solid-State Lasers
ISBN:9783662106358
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Topics in Applied Physics: 59
Keywords: Physics , Quantum optics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Laser Technology, Photonics , Quantum Optics , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1987-9781461308997:ONLINE Show nearby items on shelf
Title:Spectroscopy of Solid-State Laser-Type Materials
Author(s):
Date:1987
Size:1 online resource (592 p.)
Note:10.1007/978-1-4613-0899-7
Contents:Recent Trends in Laser Material Research -- Spectroscopy of Ionic Solid-State Laser Materials -- Optical Spectroscopy of Color Center in Ionic Crystals -- Electronic States of Transition Metal Ions in Solids -- Radiative and
Nonradiative Processes on Transition Metal Ions in Solids -- Transition Metal Ion-Doped Materials of Laser Interest -- Progress in Rare-Earth and Actinide Spectroscopy -- Spectroscopy of Post-Transition Metal Ions -- Advances in
Semiconductor Spectroscopy -- Materials for Ionic Solid State Lasers -- Glass Lasers and Solar Applications -- Recent Development in Phosphor Materials -- Long Seminars: High Pressure Properties of Some Laser Materials -- Laser-Induced
Dynamic Gratings and Four Wave Mixing-Material Investigations and Coherent Light Amplification -- Beta? Alumina: a Solid Electrolyte as a Solid State Laser Host -- Photoacoustic and Photothermal Characterization of Laser Material --
Laser Processes in Semiconductors -- Spectroscopy Using Lasers -- Excited State Absorption of Cr3+ in Low Ligand Field Hosts -- Quantum Well Structures for Optical Signal Processing -- Electronic Raman Spectroscopy (Abstract Only) --
Localization of Excitons in Weakly Disordered Systems (Abstract Only) -- Deep Impurity Levels in Semiconductors. Current State of our Understanding(Abstract Only) -- Achievements in the Field of Physics and Spectroscopy of Activated
Laser Crystals (Abstract Only) -- The Oxidation States of Ti in Sapphire Crystals (Abstract Only) -- Short Seminars (Abstracts): Laser Spectroscopy of Some Yag: R-E Systems -- Structure and Luminescence Properties of U6+ Centers in
Alkali and Alkaline Earth Fluorides -- Spectroscopy of KZnF3:Co -- Two Photon Excitation Spectroscopy of Actinyl`ions -- Relaxation Rates for Ho+3in Tellurite and Fluoride Glasses -- Energy Migration in a One-Dimensional System --
Intraion Spectral Interference Elimination in EUP5O14 by Time Resolved Spectroscopy and New Excitation Transfer Experiments in Tb0.66Eu0.33P5O14 Crystals -- Intermolecular Interactions and Luminescence Spectroscopy of Twodimensional
Layered Solids -- Energy Transfer in Li6Gd(BO3)3 -- 5D3-5D4 Cross-Relaxation of Tb3+Pairs in CsCdBr3 Crystals -- Energy Migration and Energy Transfer in GdB3O6:Bi,Tb -- On the Dielectric Constants in Donor-Acceptor Pair Luminescence --
Optical Feedback Stabilization of a Semiconductor Laser -- Temperature Dependence of the Fluorescence Lineshape and Lifetime of Titanium-Doped Sapphire -- Energy Transfer in Li(Gd,Y)0.98Ce0.01Tb0.01 F4 -- Laser Oscillation in
LiNbO3Nd,MgO -- Effects of Electron Bombardment on CdSe Crystals at T?4K -- Two Photon Absorption in Lanthanide Ions in Crystals -- Single Mode Neodymium Fibre Laser -- Summary of the Meeting -- Participants
ISBN:9781461308997
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Keywords: Physics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1986-9783662106242:ONLINE Show nearby items on shelf
Title:Trends in Quantum Electronics Proceedings of the 2nd Conference, Bucharest, September 2–6, 1985
Author(s):
Date:1986
Size:1 online resource (559 p.)
Note:10.1007/978-3-662-10624-2
Contents:Achievements in the Field of Solid-State Lasers -- Recent Advances in Ultraviolet Laser Technology -- The Pulse-Repetition Operation Regime of a Chemical Oxygen-Iodine Laser -- Experiments on Mode Pulling in a CO2 Laser -- Infrared
Solid State Lasers -- Cascade Stimulated Emission in Crystals with Several Metastable States of Ln3+ Ions -- Recent Developments in Monochromatic Birefringent Filters -- Laser Research and Applications in China -- Helical and Linear
Distributed Feedback Lasers -- Spectral, Luminescence and Lasing Properties of Yttrium, Scandium, Gallium Garnet Crystals with Chromium and Erbium -- Tunable Dye Lasers in the Visible and Ultraviolet and their Spectroscopic
Applications -- “Channeling” of Relativistic Electrons in a Periodic E. M. Potential -- Optogalvanic Laser Frequency Stabilization -- Thermodynamics of Laser Systems -- The Applicability of the Mean-Field Method in Optical Bistability
-- Nonlinear Guided Waves: Physics and Applications -- Laser-Plasma Detection: Generation of Ultrahigh-Frequency Currents on Solid Surface Exposed to Laser Radiation -- Electron Stimulated Desorption (ESD): Principles, Techniques and
its Applications for Surface Molecules Analysis -- Intense UV-Laser Radiation Interaction with Surfaces -- Fundamentals and Applications of the Interaction of Picosecond, One Micron Radiation with Crystalline Silicon -- Time-resolved
Infrared Spectroscopy on the Picosecond and Sub-Picosecond Timescale Studying Coherent Pulse Propagation -- Studies of Metal Oxidation under the Action of CW CO2 Laser Radiation -- Laser Induced Phase Transformation and Vapour
Deposition of Amorphous and Crystalline Carbon Phases -- Subnatural Linewidth Laser Spectroscopy -- Analog Optical Computing -- Picosecond Spéctroscopic Investigation on Surfaces -- Optogalvanic Spectroscopy -- Laser Interferometry at
10. 6 µm for Plasma Diagnostics -- Inertial Confinement Fusion with Lasers or Particle Beams -- Optically Pumped FIR Lasers and Their Application in the Plasma Diagnostics -- Heterogeneous Selective Processes under the Action of Laser
Radiation -- Trends of Laser Technology in Microelectronics -- Some Properties of New Single-Frequency Stabilized He-Ne Lasers -- Laser Applications in Ophthalmology -- High-Power Fast-Flow CO2 Laser Facility
ISBN:9783662106242
Series:eBooks
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Keywords: Physics , Quantum optics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Laser Technology, Photonics , Quantum Optics , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1986-9783540474333:ONLINE Show nearby items on shelf
Title:Tunable Solid-State Lasers II Proceedings of the OSA Topical Meeting, Rippling River Resort, Zigzag, Oregon, June 4–6, 1986
Author(s):
Date:1986
Size:1 online resource (369 p.)
Note:10.1007/978-3-540-47433-3
Contents:I Spectroscopy -- Two-Photon Spectroscopy Using Infrared Photons -- Laser Spectroscopy Measurements on Tunable Solid State Laser Materials -- Spectral Holeburning in Titanium-Doped Sapphire and YAG -- II Chromium Spectroscopy --
Chromium Activated Crystals as Tunable Laser Media — What Makes Them Special? -- Radiative and Nonradiative Energy Transfer Between Cr3+ and Nd3+ in GSGG -- Excited-State Absorption and Photoconductivity of GSGG:Cr and GSAG:Cr. -- The
Fluorescence Behaviour of Chromium-Doped Oxide Glasses -- III Crystal Growth -- Chromium-Doped Garnet Hosts: Crystal Chemistry Development and Properties -- Crystal Growth of ScBO3:Cr3+ — A New Near-IR Tunable Laser Crystal -- Growth
of Laser-Quality Ti:Al2O3 Crystals by a Seeded Gradient Freeze Technique -- Effects of Growth Conditions and Post-Growth Thermal Treatment on the Quality of Titanium-Doped Sapphire -- Growth of Cerium-Doped Rare Earth Silicates for
Tunable Lasers -- IV Chromium Tunable Lasers -- The Chromium-Doped Rare-Earth Gallium Garnet Crystals as the Active Material for Solid-State Lasers -- Single-mode Operation of Cr-Doped GSGG and KZnF3 -- Flashlamp-pumped Cr3+:GSAG and
Cr3+:GSGG: Slope Efficiency, Resonator Design, Color Centers and Tunability -- Laser Action in Flashlamp-Pumped Chromium: GSG-Garnet -- Cr:YSAG — A Tunable Near-Infrared Laser Material -- A ScBO3:Cr Laser -- Tunable Lasers with
Transition Metal Doped Fluoride Crystals -- Laser-Pumped Laser Measurements of Gain and Loss in SrAlF5:Cr Crystals -- V Alexandrite Lasers -- Alexandrite Laser Amplifiers -- High-Power Injection-Locked Alexandrite Ring Laser -- Low
Magnification Unstable Resonators Using Radially Varying Birefringent Elements -- Injection Locking Broadly Tunable, Q-Switched Alexandrite Lasers Using Semiconductor Laser Diodes -- Panel Discussion on Chromium Tunable Lasers -- VI
Titanium Sapphire Lasers -- Room-Temperature cw Operation of the Ti:Al2O3 Laser -- Continuous Wave Tunable Laser Operation of Ti3+-Doped Sapphire at 300 K. -- Efficient, Tunable Ti:Sapphire Laser -- Amplifier and Line-Narrowed
Oscillator Performance of Ti:Al2O3 -- Oscillator and Amplifier Performance of Ti:Sapphire -- Laser Performance and Temperature-Dependent Spectroscopy of Titanium-Doped Crystals -- Flashlamp-Pumped Titanium-Doped Sapphire Laser --
Optical and Mass Spectroscopic Analyses of Titanium-Doped Sapphire Crystals -- Injection-Controlled Titanium-Doped Sapphire Laser Using a Pulsed Dye Laser -- VII Color Center Lasers -- New Color Center Lasers Based on Molecule-Doped
Alkali Halides -- Stable Color Center Laser in OH-Doped NaC1 Operating in the 1.41–1.81 ?m Region -- Recent Progress in the Development of (F2+)A Color Center Lasers -- Electric Field Modulation of a Colour Centre Laser -- Synthetic
Diamond for Color Center Lasers -- VIII Rare Earth Lasers -- Laser Action of Cr, Nd, Tm, Ho-Doped Garnets -- Diode-Pumped 2 ?m Holmium Laser -- Laser Operation on the Erbium and Holmium Transitions in the Yttrium-Scandium-Gallium
Garnet Crystals -- Operation of the High Dopant Density Er:YAG at 2.94 ?m -- IX Neodymium Lasers -- The YA1O3:Er Laser -- Comparative Performance of Nd-Doped Solid-State Laser Materials -- CW Tunable Laser Emission of
Nd3+:Na0.4Y0.6F2.2 -- Monomode Neodymium-Doped Fibre Laser: Tunable Continuous-Wave Oscillation at 0.9 ?m -- Nonradiative Processes and Blue Emission in Nd:YLF -- X Applications and Nonlinear Optics -- Future Lidar Platforms in Space
-- Preliminary Study of a Tunable Narrow Line Double Pulse Alexandrite Laser for Meteorological DIAL Applications -- Nonlinear Infrared Frequency Conversion in AgGaS2 and AgGaSe2 -- Non-Linear Conversion of 1.3 ?m Nd:YLF Emission --
Index of Contributors
ISBN:9783540474333
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Series:Springer Series in Optical Sciences: 52
Keywords: Physics , Quantum optics , Lasers , Photonics , Physics , Laser Technology, Photonics , Quantum Optics
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Call number:SPRINGER-1985-9783540397656:ONLINE Show nearby items on shelf
Title:Tunable Solid State Lasers for Remote Sensing Proceedings of the NASA Conference Stanford University, Stanford, USA, October 1–3, 1984
Author(s):
Date:1985
Size:1 online resource (156 p.)
Note:10.1007/978-3-540-39765-6
Contents:I Remote Sensing — An Overview -- NASA Plans for Spaceborne Lidar: The Earth Observing System -- Solid State Laser Technology — A NASA Perspective -- Coherent and Incoherent Lidar — an Overview -- Remote Sensing from Space Platforms
-- Accommodation of a ND: YAG Lidar on a Polar Meteorological Satellite -- Solid State Bistatic Lidar for Ionospheric Species Mapping and Precise Locating Lidar for the Tethered Satellite System -- II Solid State Lasers for Remote
Sensing -- Nd:YAG and Ruby Based Lidar Systems for Remote Sensing of Atmospheric Aerosols -- Remote Sensing with a Tunable Alexandrite Laser Transmitter -- Miniature Laser Diode Pumped Nd:YAG Lasers -- A Solid State Tunable Laser for
Resonance Measurements of Atmospheric Sodium -- III Advances in Laser Concepts — Diode Pumped Nd:YAG -- Laser Diode Arrays for Pumping Nd:YAG -- Progress in Diode Array Development -- IV Review of Tunable Solid State Laser Systems --
Review of the Tunable Alexandrite Laser Performance -- Tunable Laser Crystal Host Systems -- Color Center Lasers: A Brief Review -- An Overview of Tunable Diode Laser Technology Development -- V The Titanium Sapphire Tunable Laser
System -- An Evaluation of the Ti:Sapphire Tunable Laser System -- Flashlamp Pumped Ti:Al2O3 Laser Studies -- Preliminary Experiments on Ti:Al2O3 Laser -- Ti:Al2O3 Laser Pumped by a Frequency Doubled Nd:YAG Laser -- Absorption and
Fluorescence of Alexandrite and of Titanium in Sapphire and Glass -- VI Advanced Laser Concepts — The Slab Geometry -- Progress in Solid-State Slab-Lasers -- Scalability of High Average Power Solid State Lasers -- Modeling Studies and
Experimental Performance of Slab Geometry Lasers -- Slab Laser Development at MSNW: The Gemini and Centurion Systems -- VII Progress in Garnet Host Solid State Lasers -- Advanced Crystalline Laser Materials -- Use of Garnet Crystals as
Laser Hosts -- Performance Study of a Cr:Nd:GSGG Laser -- VIII Growth of Lasers and Nonlinear Materials -- Growth of Codoped Garnet Crystals -- Growth of KTP -- Growth of New Laser Crystals -- Growth of Nd:YAG and Cr, Nd:GScGG. A
Comparative Study -- Growth of Alexandrite and Garnet Laser Crystals -- IX Nonlinear Frequency Conversion and Tunable Sources -- Wavelength Conversion via Stimulated Raman Scattering -- Efficient Frequency Conversion of Laser Sources
in Nonlinear Crystals -- Infrared Frequency Generation in Chalcopyrite Crystals AgGaS2 and AgGaGe2 -- Nonlinear Optics in Single Crystal Fibers -- Laser Action of H3 Color Center in Diamond -- List of Conference Attendees -- Index of
Contributors
ISBN:9783540397656
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Series:Springer Series in Optical Sciences: 51
Keywords: Physics , Space sciences , Quantum optics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Laser Technology, Photonics , Quantum Optics , Optics, Optoelectronics, Plasmonics and Optical Devices , Extraterrestrial Physics, Space Sciences
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Call number:SPRINGER-1984-9783642455568:ONLINE Show nearby items on shelf
Title:Laser Theory
Author(s): Hermann Haken
Date:1984
Size:1 online resource (322 p.)
Note:10.1007/978-3-642-45556-8
Contents:I. Introduction -- 1.1. The maser principle -- 1.2. The laser condition -- 1.3. Properties of laser light -- a) Spatial coherence -- b) Temporal coherence -- c) Photon statistics -- d) High intensity -- e) Ultrashort pulses -- 1.4.
Plan of the article -- II. Optical resonators -- II.1. Introduction -- II.2. The Fabry-Perot resonator with plane parallel reflectors -- a) Spatial distribution of modes -- b) Diffraction losses -- c) Three-dimensional resonator --
II.3. Confocal resonator -- a) Field outside the resonator -- b) Field inside the resonator -- c) Far field pattern of the confocal resonator -- d) Phase shifts and losses -- II.4. More general configurations -- a) Confocal resonators
with unequal square and rectangular apertures -- b) Resonators with reflectors of unequal curvature -- ?) Large circular apertures -- ?) Large square aperture -- II.5. Stability -- III. Quantum mechanical equations of the light field
and the atoms without losses -- III.1. Quantization of the light field -- III.2. Second quantization of the electron wave field -- III.3. Interaction between radiation field and electron wave field -- III.4. The interaction
representation and the rotating wave approximation -- III.5. The equations of motion in the Heisenberg picture -- III.6. The formal equivalence of the system of atoms each having 2 levels with a system of ½ spins -- IV. Dissipation and
fluctuation of quantum systems. The realistic laser equations -- IV.1. Some remarks on homogeneous and inhomogeneous broadening -- a) Natural linewidth -- b) Inhomogeneous broadening -- ?) Impurity atoms in solids -- ?) Gases -- ?)
Semiconductors -- c) Homogeneous broadening -- ?) Impurity atoms in solids -- ?) Gases -- ?) Semiconductors -- IV.2. A survey of IV.2.–IV.11 -- a) Definition of heatbaths (reservoirs) -- b) The role of heatbaths -- c) Classical
Langevin and Fokker-Planck equations -- ?) Langevin equations -- ?) The Fokker-Planck equation -- d) Quantum mechanical formulation: the total Hamiltonian -- e) Quantum mechanical Langevin equations, Fokker-Planck equation and density
matrix equation -- ?) Langevin equations -- ?) Density matrix equation -- ?) Generalized Fokker-Planck equation -- IV.3. Quantum mechanical Langevin equations: origin of quantum mechanical Langevin forces (the effect of heatbaths) --
a) The field (one mode) -- b) Electrons (“atoms”) -- IV.4. The requirement of quantum mechanical consistency -- a) The field -- b) Dissipation and fluctuations of the atoms -- IV. 5. The explicit form of the correlation functions of
Langevin forces -- a) The field -- b) The N-level atom -- IV. 6. The complete laser equations -- a) Quantum mechanically consistent equations for the operators b?+ and (ai+ak)? -- ?) The field equations -- ?) The matter equations -- b)
Semiclassical equations -- ?) The field equations -- ?) The matter equations -- IV.7. The density matrix equation -- a) General derivation -- b) Specialization of Eq. (IV.7.31) -- ?) Light mode -- ?) Atom -- ?) The density matrix
equation of the complete system of M laser modes and N atoms -- IV. 8. The evaluation of multi-time correlation functions by the single-time density matrix -- IV.9. Generalized Fokker-Planck equation: definition of distribution
functions -- a) Field -- ?) Wigner distribution function and related representations -- ?) Transforms of the distribution functions: characteristic functions -- ?) Calculation of expectation values by means of the distribution
functions -- b) Electrons -- ?) Distribution functions for a single electron -- ?) Characteristic functions -- ?) Electrons and fields -- IV. 10. Equation for the laser distribution function (IV.9.22) -- a) Comparison of the advantages
of the Heisenberg and the Schrödinger representations -- ?) The Heisenberg representation -- ?) The Schrödinger representation -- b) Final form of the generalized Fokker-Planck equation -- IV.11. The calculation of multi-time
correlation functions by means of the distribution function -- V. Properties of quantized electromagnetic fields -- V.1. Coherence properties of the classical and the quantized electromagnetic field -- a) Classical description:
definitions -- ?) The complex analytical signal -- ?) The average -- ?) The mutual coherence function -- b) Quantum theoretical coherence functions -- ?) Elementary introductions -- ?) Coherence functions -- ?) Coherent wave functions
-- ?) Generation of coherent fields by classical sources (the forced harmonic oscillator) -- V.2. Uncertainty relations and limits of measurability -- a) Field and photon number -- b) Phase and photon number -- ?) Heuristic
considerations -- ?) Exact treatment -- c) Field strength -- V.3. Spontaneous and stimulated emission and absorption -- a) Spontaneous emission -- b) Stimulated emission -- c) Comparison between spontaneous and stimulated emission
rates -- d) Absorption -- V.4. Photon counting -- a) Quantum mechanical treatment, correlation functions -- b) Classical treatment of photon counting -- V.5. Coherence properties of spontaneous and stimulated emission. The spontaneous
linewidth -- VI. Fully quantum mechanical solutions of the laser equations -- VI.1. Disposition -- VI.2. Summary of theoretical results and comparison with the experiments -- a) Qualitative discussion of the characteristic features of
the laser output: homogeneously broadened line -- b) Quantitative results: single mode action -- ?) The spectroscopic linewidth well above threshold -- ?) The spectroscopic linewidth somewhat below threshold -- ?) The intensity (or
amplitude) fluctuations -- ?) Photon statistics -- VI.3. The quantum mechanical Langevin equations for the solid state laser -- a) Field equations -- b) Matter equations -- ?) The motion of the atomic dipole moment -- 1. Dipole moment
between levels j and k -- 2. Dipole moment between levels l and l?k, j and between levels k and l=j, k -- 3. Dipole moment between levels i? k, j and l ? k, j -- ?) The occupation numbers change -- 1. For the laser levels j and k -- 2.
For the non-laser levels -- VI.4. Qualitative discussion of single mode operation -- a) The linear range (subthreshold region) -- b) The nonlinear range (at threshold and somewhat above) -- ?) Phase diffusion -- ?) Amplitude
(intensity) fluctuations -- c) The nonlinear range at high inversion -- d) Exact elimination of all atomic coordinates -- VI.5. Quantitative treatment of a homogeneously broadened transition: emission below threshold (intensity,
linewidth, amplification of signals) -- a) No external signals -- ?) Single-mode linewidth below threshold -- ?) Many modes below threshold -- b) External signals -- VI.6. Exact elimination of atomic variables in the case of a
homogeneously broadened line. Running or standing waves -- ?) Standing waves -- ?) Running waves -- VI.7. Single mode operation above threshold, homogeneously broadened line -- a) Lowest order -- b) First order -- c) Phase noise.
Linewidth formula -- d) Amplitude fluctuations -- ?) The special case of a moderate photon number -- ?) The special case of a big photon number -- VI.8. Stability of amplitude. Spiking and damped oscillations. Single-mode operation,
homogeneously broadened line -- a) Qualitative discussion -- b) Quantitative treatment -- c) The special case w13?? (“two level system”) -- VI.9. Qualitative discussion of two-mode operation -- a) Some transformations -- b) Both modes
well below threshold -- c) Modes somewhat above or somewhat below threshold -- d) Both modes above threshold -- ?) |?1 ? ?2| ? 1/T -- ?) |?1 ? ?2| ? 1/T -- VI. 10. Gas laser and solid-state laser with an inhomogeneously broadened line.
The van der Pol equation, single-mode operation -- a) Solid-state laser with an inhomogeneously broadened line and an arbitrary number of levels -- b) Gas laser -- VI.11. Direct solution of the density matrix equation -- VI.12.
Reduction of the generalized Fokker-Planck equation for single-mode action -- a) Expansion in powers of N?½ (N: number of atoms) -- b) Adiabatic elimination of the atomic variables -- c) The Fokker-Planck equation -- VI. 13. Solution
of the reduced Fokker-Planck equation -- a) Steady state solution -- b) Transient solution -- VI. 14. The Fokker-Planck equation for multimode action near threshold. Exact or nearly exact stationary solution -- a) The explicit form of
the Fokker-Planck equation -- b) Theorem on the exact stationary solution of a Fokker-Planck equation -- c) Nearly exact solution of (VI. 14.1) -- ?) Normal multimode action -- ?) Phase locking of many modes -- ?) A qualitative
discussion of phase locking (example of three modes) -- VI. 15. The linear and quasi-linear solution of the general Fokker-Planck equation -- a) Far below threshold -- b) Well above threshold -- VII. The semiclassical approach and its
applications -- VII.1. Spirit of the semiclassical approach. The equations for the solid state laser -- a) The field equations -- b) The material equations -- c) Macroscopic treatment -- ?) Wave picture, inhomogeneous atomic line -- ?)
Wave picture, homogeneous atomic line -- ?) Wave picture, homogeneous atomic line, rotating wave approximation, slowly varying amplitude approximation -- ?) Mode picture, polarization waves -- d) Extension to multilevel atoms -- e)
Systematics of the semiclassical approach -- VII.2. Method of solution for the stationary state -- a) Single-mode operation, general features -- b) Two-mode operation, general features -- ?) Time-independent atomic response -- ?)
Time-dependent atomic response -- VII.3. The solid-state laser with a homogeneously broadened line. Single and multimode laser action -- a) Single-mode operation -- b) Multiple-mode operation -- ?) Equations for the photon densities of
M modes -- ?) Equations for the frequency shift -- VII.4. The solid-state laser with an inhomogeneously broadened Gaussian line. Single-and two-mode operation -- a) One mode -- ?) Equation for the frequency shift -- ?) Equation for the
ph
ISBN:9783642455568
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Keywords: Physics , Quantum optics , Lasers , Photonics , Physics , Laser Technology, Photonics , Quantum Optics
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Call number:SPRINGER-1984-9781461324072:ONLINE Show nearby items on shelf
Title:Energy Transfer Processes in Condensed Matter
Author(s):
Date:1984
Size:1 online resource (696 p.)
Note:10.1007/978-1-4613-2407-2
Contents:to Energy Transfer and Relevant Solid-State Concepts -- to Energy Transfer and Relevant Solid-State Concepts -- Energy Transfer among Ions in Solids -- Mathematical Methods for the Description of Energy Transfer -- Energy Transfer in
Insulating Materials -- Energy Transfer in Semiconductors -- Triplet Excitation Transfer Studies in Organic Condensed Matter via Cooperative Effects -- Energy Transfer in Solid Rare Gases -- Energy Transfer and Localization in Ruby --
Energy Transfer and Ionic Solid State Lasers -- A Scalar Field Strength Parameter for Rare-Earth Ions: Meaning and Application to Energy Transfers -- Energy Transfer between Inorganic Ion in Glasses -- Non-Equilibrium Concepts in Solar
Energy Conversion -- Long Seminars -- Magneto-Optical Study of Energy Transfer in Ruby -- Spectroscopic Studies of Energy Transfer in Solids -- Dynamical Models of Energy Transfer in Condensed Matter -- Energy Transfer and Electron
Transfer in Photobiological, Photochemical, and Photoelectrochemical Processes (Abstract only) -- An Example of Identifying the Specific Mechanism of Resonant Energy Transfer: Sb3+ ? Mn2+ in Fluoro-Phosphate Phosphors (Abstract only)
-- Energy Transfer and Anderson Localization in Ruby Electric Field and Uniaxial Stress Effects -- Time-Resolved Studies of Energy Transfer -- Trends in Scientific Computing -- Short Seminars -- Photoconductivity of Indium in Silicon
-- Nonlinear Energy Transfer in Semiconductors Yielding Bistability -- Luminescence and Energy Transfer In YA1G:Nd,Ce -- Energy Transfer Effects in NaEuTiO4 -- Energy Transfer in Antiferromagnetic Alkali Manganese Halide Crystals --
Auger Effect Due to Shallow Donors in CdF2:Mn Luminescence -- Energy Transfer Processes in Znse:Ni,Fe -- On the Role of Nonlocalized Excitation Mechanisms in the Generation of Red Er3+ Emission in CdF2:Er,Yb -- The General
Three-Dimensional Haken-Strobl Model -- The Luminescence Spectrum of U02mo04 -- Contributors
ISBN:9781461324072
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Series:NATO ASI Series, Series B: Physics: 114
Keywords: Physics , Condensed matter , Physics , Condensed Matter Physics
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Call number:SPRINGER-1983-9783642455537:ONLINE Show nearby items on shelf
Title:Advanced Synergetics Instability Hierarchies of Self-Organizing Systems and Devices
Author(s): Hermann Haken
Date:1983
Size:1 online resource (105 p.)
Note:10.1007/978-3-642-45553-7
Contents:1. Introduction -- 1.1 What is Synergetics About? -- 1.2 Physics -- 1.2.1 Fluids: Formation of Dynamic Patterns -- 1.2.2 Lasers: Coherent Oscillations -- 1.2.3 Plasmas: A Wealth of Instabilities -- 1.2.4 Solid-State Physics:
Multistability, Pulses, Chaos -- 1.3 Engineering -- 1.3.1 Civil, Mechanical, and Aero-Space Engineering: Post-Buckling Patterns, Flutter, etc -- 1.3.2 Electrical Engineering and Electronics: Nonlinear Oscillations -- 1.4 Chemistry:
Macroscopic Patterns -- 1.5 Biology -- 1.5.1 Some General Remarks -- 1.5.2 Morphogenesis -- 1.5.3 Population Dynamics -- 1.5.4 Evolution -- 1.5.5 Immune System -- 1.6 Computer Sciences -- 1.6.1 Self-Organization of Computers, in
Particular Parallel Computing -- 1.6.2 Pattern Recognition by Machines -- 1.6.3 Reliable Systems from Unreliable Elements -- 1.7 Economy -- 1.8 Ecology -- 1.9 Sociology -- 1.10 What are the Common Features of the Above Examples? --
1.11 The Kind of Equations We Want to Study -- 1.11.1 Differential Equations -- 1.11.2 First-Order Differential Equations -- 1.11.3 Nonlinearity -- 1.11.4 Control Parameters -- 1.11.5 Stochasticity -- 1.11.6 Many Components and the
Mezoscopic Approach -- 1.12 How to Visualize the Solutions -- 1.13 Qualitative Changes: General Approach -- 1.14 Qualitative Changes: Typical Phenomena -- 1.14.1 Bifurcation from One Node (or Focus) into Two Nodes (or Foci) -- 1.14.2
Bifurcation from a Focus into a Limit Cycle (Hopf Bifurcation) -- 1.14.3 Bifurcations from a Limit Cycle -- 1.14.4 Bifurcations from a Torus to Other Tori -- 1.14.5 Chaotic Attractors -- 1.14.6 Lyapunov Exponents * -- 1.15 The Impact
of Fluctuations (Noise). Nonequilibrium Phase Transitions -- 1.16 Evolution of Spatial Patterns -- 1.17 Discrete Maps. The Poincaré Map -- 1.18 Discrete Noisy Maps -- 1.19 Pathways to Self-Organization -- 1.19.1 Self-Organization
Through Change of Control Parameters -- 1.19.2 Self-Organization Through Change of Number of Components -- 1.19.3 Self-Organization Through Transients -- 1.20 How We Shall Proceed -- 2. Linear Ordinary Differential Equations -- 2.1
Examples of Linear Differential Equations: The Case of a Single Variable -- 2.1.1 Linear Differential Equation with Constant Coefficient -- 2.1.2 Linear Differential Equation with Periodic Coefficient -- 2.1.3 Linear Differential
Equation with Quasiperiodic Coefficient -- 2.1.4 Linear Differential Equation with Real Bounded Coefficient -- 2.2 Groups and Invariance -- 2.3 Driven Systems -- 2.4 General Theorems on Algebraic and Differential Equations -- 2.4.1 The
Form of the Equations -- 2.4.2 Jordan’s Normal Form -- 2.4.3 Some General Theorems on Linear Differential Equations -- 2.4.4 Generalized Characteristic Exponents and Lyapunov Exponents -- 2.5 Forward and Backward Equations: Dual
Solution Spaces -- 2.6 Linear Differential Equations with Constant Coefficients -- 2.7 Linear Differential Equations with Periodic Coefficients -- 2.8 Group Theoretical Interpretation -- 2.9 Perturbation Approach* -- 3. Linear Ordinary
Differential Equations with Quasiperiodic Coefficients* -- 3.1 Formulation of the Problem and of Theorem 3 -- 3.2 Auxiliary Theorems (Lemmas) -- 3.3 Proof of Assertion (a) of Theorem 3.1.1: Construction of a Triangular Matrix: Example
of a 2 × 2 Matrix -- 3.4 Proof that the Elements of the Triangular Matrix C are Quasiperiodic in ? (and Periodic in ?j and Ck with Respect to ?: Exampleof a 2 × 2 Matrix -- 3.5 Construction of the Triangular Matrix C and Proof that Its
Elements are Quasiperiodic in ? (and Periodic in ?j and Ck with Respect to ?): The Case of an m × m Matrix, all A’s Different -- 3.6 Approximation Methods. Smoothing -- 3.6.1 A Variational Method -- 3.6.2 Smoothing -- 3.7 The
Triangular Matrix C and Its Reduction -- 3.8 The General Case: Some of the Generalized Characteristic Exponents Coincide -- 3.9 Explicit Solution of (3.1.1) by an Iteration Procedure -- 4. Stochastic Nonlinear Differential Equations --
4.1 An Example -- 4.2 The Îto Differential Equation and the Îto-Fokker-Planck Equation -- 4.3 The Stratonovich Calculus -- 4.4 Langevin Equations and Fokker-Planck Equation -- 5. The World of Coupled Nonlinear Oscillators -- 5.1 Linear
Oscillators Coupled Together -- 5.1.1 Linear Oscillators with Linear Coupling -- 5.1.2 Linear Oscillators with Nonlinear Coupling. An Example. Frequency Shifts -- 5.2 Perturbations of Quasiperiodic Motion for Time-Independent
Amplitudes (Quasiperiodic Motion Shall Persist) -- 5.3 Some Considerations on the Convergence of the Procedure* -- 6. Nonlinear Coupling of Oscillators: The Case of Persistence of Quasiperiodic Motion -- 6.1 The Problem -- 6.2 Moser’s
Theorem (Theorem 6.2.1) -- 6.3 The Iteration Procedure* -- 7. Nonlinear Equations. The Slaving Principle -- 7.1 An Example -- 7.1.1 The Adiabatic Approximation -- 7.1.2 Exact Elimination Procedure -- 7.2 The General Form of the Slaving
Principle. Basic Equations -- 7.3 Formal Relations -- 7.4 The Iteration Procedure -- 7.5 An Estimate of the Rest Term. The Question of Differentiability -- 7.6 Slaving Principle for Discrete Noisy Maps* -- 7.7 Formal Relations* -- 7.8
The Iteration Procedure for the Discrete Case* -- 7.9 Slaving Principle for Stochastic Differential Equations* -- 8. Nonlinear Equations. Qualitative Macroscopic Changes -- 8.1 Bifurcations from a Node or Focus. Basic Transformations
-- 8.2 A Simple Real Eigenvalue Becomes Positive -- 8.3 Multiple Real Eigenvalues Become Positive -- 8.4 A Simple Complex Eigenvalue Crosses the Imaginary Axis. Hopf Bifurcation -- 8.5 Hopf Bifurcation, Continued -- 8.6 Frequency
Locking Between Two Oscillators -- 8.7 Bifurcation from a Limit Cycle -- 8.8 Bifurcation from a Limit Cycle: Special Cases -- 8.8.1 Bifurcation into Two Limit Cycles -- 8.8.2 Period Doubling -- 8.8.3 Subharmonics -- 8.8.4 Bifurcation
to a Torus -- 8.9 Bifurcation from a Torus (Quasiperiodic Motion) -- 8.10 Bifurcation from a Torus: Special Cases -- 8.10.1 A Simple Real Eigenvalue Becomes Positive -- 8.10.2 A Complex Nondegenerate Eigenvalue Crosses the Imaginary
Axis -- 8.11 Instability Hierarchies, Scenarios, and Routes to Turbulence -- 8.11.1 The Landau-Hopf Picture -- 8.11.2 The Ruelle and Takens Picture -- 8.11.3 Bifurcations of Tori. Quasiperiodic Motions -- 8.11.4 The Period-Doubling
Route to Chaos. Feigenbaum Sequence -- 8.11.5 The Route via Intermittency -- 9. Spatial Patterns -- 9.1 The Basic Differential Equations -- 9.2 The General Method of Solution -- 9.3 Bifurcation Analysis for Finite Geometries -- 9.4
Generalized Ginzburg-Landau Equations -- 9.5 A Simplification of Generalized Ginzburg-Landau Equations. Pattern Formation in Bénard Convection -- 10. The Inclusion of Noise -- 10.1 The General Approach -- 10.2 A Simple Example -- 10.3
Computer Solution of a Fokker-Planck Equation for a Complex Order Parameter -- 10.4 Some Useful General Theorems on the Solutions of Fokker-Planck Equations -- 10.4.1 Time-Dependent and Time-Independent Solutions of the Fokker-Planck
Equation, if the Drift Coefficients are Linear in the Coordinates and the Diffusion Coefficients Constant -- 10.4.2 Exact Stationary Solution of the Fokker-Planck Equation for Systems in Detailed Balance -- 10.4.3 AnExample -- 10.4.4
Useful Special Cases -- 10.5 Nonlinear Stochastic Systems Close to Critical Points: A Summary -- 11. Discrete Noisy Maps -- 11.1 Chapman-Kolmogorov Equation -- 11.2 The Effect of Boundaries. One-Dimensional Example -- 11.3 Joint
Probability and Transition Probability. Forward and Backward Equation 305 -- 11.4 Connection with Fredholm Integral Equation 306 -- 11.5 Path Integral Solution 307 -- 11.6 The Mean First Passage Time 308 -- 11.7 Linear Dynamics and
Gaussian Noise. Exact Time-Dependent Solution of the Chapman-Kolmogorov Equation 310 -- 12. Example of an Unsolvable Problem in Dynamics -- 13. Some Comments on the Relation Between Synergetics and Other Sciences -- Appendix A: Moser’s
Proof of His Theorem -- A.1 Convergence of the Fourier Series -- A.2 The Most General Solution to the Problem of Theorem -- A.3 Convergent Construction -- A.4 Proof of Theorem -- References
ISBN:9783642455537
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Series:Springer Series in Synergetics: 20
Keywords: Physics , Physics , Theoretical, Mathematical and Computational Physics
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Call number:SPRINGER-1983-9783540395522:ONLINE Show nearby items on shelf
Title:Optical and Laser Remote Sensing
Author(s):
Date:1983
Size:1 online resource (386 p.)
Note:10.1007/978-3-540-39552-2
Contents:1 IR Differential-Absorption LIDAR (DIAL) Techniques -- 1.1 Airborne Remote Sensing Measurements With a Pulsed CO2 Dial System -- 1.2 Differential-Absorption Measurements With Fixed-Frequency IR and UV Lasers -- 1.3 Remote Sensing of
Hydrazine Compounds Using a Dual Mini-TEA CO2 Laser DIAL System -- 1.4 The Hull Coherent DIAL Programme -- 1.5 Remote Measurement of Trace Gases With the JPL Laser Absorption Spectrometer -- 1.6 Laser Remote Sensing Measurements of
Atmospheric Species and Natural Target Reflectivities -- 1.7 Airborne CO2 Laser Heterodyne Sensor for Monitoring Regional Ozone Distributions -- 2 Spectrometric Techniques -- 2.1 Tunable Laser Heterodyne Spectrometer Measurements of
Atmospheric Species -- 2.2 Interferometric Measurements of Atmospheric Species -- 2.3 Remote Sensing by Infrared Heterodyne Spectroscopy -- 2.4 Detection of Trace Gases Using High-Resolution IR Spectroscopy -- 2.5 Gaseous Correlation
Spectrometric Measurements -- 2.6 Measurements of Atmospheric Trace Gases by Long Path Differential UV/Visible Absorption Spectroscopy -- 2.7 Measurements of HONO, NO3, and NO2 by Long-Path Differential Optical Absorption Spectroscopy
in the Los Angeles Basin -- 2.8 Remote Detection of Gases by Gas Correlation Spectroradiometry -- 3 UV-Visible DIAL Techniques -- 3.1 Atmospheric Pressure and Temperature Profiling Using Near IR Differential Absorption Lidar -- 3.2
Ground-Based Ultraviolet Differential Absorption Lidar (DIAL) System and Measurements -- 3.3 Remote Sensing of Tropospheric Gases and Aerosols With an Airborne DIAL System -- 3.4 Pollution Monitoring Using Nd:YAG Based Lidar Systems --
4 Atmospheric Propagation and System Analysis -- 4.1 Effects of Atmospheric Obscurants on the Propagation of Optical/IR Radiation -- 4.2 The Effects of Target-Induced Speckle, Atmospheric Turbulence, and Beam Pointing Jitter on the
Errors in Remote Sensing Measurements -- 4.3 Lidar System Analysis for Measurement of Atmospheric Species -- 4.4 CO2 DIAL Sensitivity Studies for Measurements of Atmospheric Trace Gases -- 4.5 Signal Averaging Limitations in
Heterodyne- and Direct-Detection Laser Remote Sensing Measurements -- 5 UV-Fluorescence Remote Sensing -- 5.1 Rayleigh and Resonance Sounding of the Stratosphere and Mesosphere -- 5.2 High-Resolution Lidar System for Measuring the
Spatial and Temporal Structure of the Mesospheric Sodium Layer -- 5.3 Remote Sensing of OH in the Atmosphere Using the Technique of Laser-Induced Fluorescence -- 5.4 Use of the Fraunhofer Line Discriminator (FLD) for Remote Sensing of
Materials Stimulated to Luminesce by the Sun -- 5.5 Ozone and Water Vapor Monitoring Using a Ground-Based Lidar System -- 5.6 The NASA/Goddard Balloon Borne Lidar System -- 6 Laser Sources and Detectors -- 6.1 Development of Compact
Excimer Lasers for Remote Sensing -- 6.2 Solid-State Laser Sources for Remote Sensing -- 6.3 Progress in Laser Sources for Remote Sensing -- 6.4 Review of NDRE Remote Sensing Program and Development of High Pressure RF Excited CO2
Waveguide Lasers -- 6.5 Progress in Dye and Excimer Laser Sources for Remote Sensing -- 6.6 IR Detectors: Heterodyne and Direct -- 7 Advanced Optical Techniques -- 7.1 Optical Remote Sensing of Environmental Pollution and Danger by
Molecular Species Using Low-Loss Optical Fiber Network System -- 7.2 In situ Ultratrace Gas Detection by Photothermal Spectroscopy: An Overview -- 7.3 Laser-Induced Breakdown Spectroscopy (LIBS): A New Spectrochemical Technique -- 7.4
The High Spectral Resolution Lidar -- 8 Lidar Technology -- 8.1 Lidar Measurements of Clouds -- 8.2 Coherent IR Radar Technology -- 8.3 Tactical and Atmospheric Coherent Laser Radar Technology -- 8.4 Atmospheric Remote Sensing Using
the NOAA Coherent Lidar System -- 8.5 Coherent CO2 Lidar Systems for Remote Atmospheric Measurements -- 8.6 Wide-Area Air Pollution Measurement by the NIES Large Lidar -- 8.7 ALPHA-1/Alarm Airborne Lidar Systems and Measurements --
Index of Contributors
ISBN:9783540395522
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Series:Springer Series in Optical Sciences: 39
Keywords: Physics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1982-9781461576679:ONLINE Show nearby items on shelf
Title:Principles of Lasers
Author(s): Orazio Svelto
Date:1982
Edition:Second Edition
Size:1 online resource (374 p.)
Note:10.1007/978-1-4615-7667-9
Contents:1 Introductory Concepts -- 1.1 Spontaneous and Stimulated Emission, Absorption -- 1.2 The Laser Idea -- 1.3 Pumping Schemes -- 1.4 Properties of Laser Beams -- Problems -- 2 Interaction of Radiation with Matter -- 2.1 Summary of
Blackbody Radiation Theory -- 2.2 Absorption and Stimulated Emission -- 2.3 Spontaneous Emission -- 2.4 Nonradiative Decay -- 2.5 Line Broadening Mechanisms -- 2.6 Saturation -- 2.7 Degenerate Levels -- 2.8 Relation between Cross
Section and Spontaneous Radiative Lifetime -- 2.9 Molecular Systems -- Problems -- References -- 3 Pumping Processes -- 3.1 Introduction -- 3.2 Optical Pumping -- 3.3 Electrical Pumping -- Problems -- References -- 4 Passive Optical
Resonators -- 4.1 Introduction -- 4.2 Plane-Parallel Resonator -- 4.3 Confocal Resonator -- 4.4 Generalized Spherical Resonator -- 4.5 Unstable Resonators -- Problems -- References -- 5 Continuous Wave and Transient Laser Behavior --
5.1 Introduction -- 5.2 Rate Equations -- 5.3 CW Laser Behavior -- 5.4 Transient Laser Behavior -- 5 5 Limits to the Rate Equations -- Problems -- References -- 6 Types of Lasers -- 6.1 Introduction -- 6.2 Solid-State Lasers -- 6.3 Gas
Lasers -- 6.4 Liquid Lasers (Dye Lasers) -- 6.5 Chemical Lasers -- 6.6 Semiconductor Lasers -- 6.7 Color-Center Lasers -- 6.8 The Free-Electron Laser -- 6.9 Summary of Performance Data -- Problems -- References -- 7 Properties of Laser
Beams -- 7.1 Introduction -- 7.2 Monochromaticity -- 7.3 First-Order Coherence -- 7.4 Directionality -- 7.5 Laser Speckle -- 7.6 Brightness -- 7.7 Higher-Order Coherence -- Problems -- References -- 8 Laser Beam Transformation -- 8.1
Introduction -- 8.2 Transformation in Space. Gaussian Beam Propagation -- 8.3 Transformation in Amplitude: Laser Amplification -- 8.4 Transformation in Frequency: Second-Harmonic Generation and Parametric Oscillation -- Problems --
References -- 9 Applications of Lasers -- 9.1 Introduction -- 9.2 Applications in Physics and Chemistry -- 9.3 Applications in Biology and Medicine -- 9.4 Material Working -- 9.5 Optical Communications -- 9.6 Measurement and Inspection
-- 9.7 Thermonuclear Fusion -- 9.8 Information Processing and Recording -- 9.9 Military Applications -- 9.10 Holography -- 9.11 Concluding Remarks -- References -- Appendixes -- A Space-Dependent Rate Equations -- B Physical Constants
-- Answers to Selected Problems
ISBN:9781461576679
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Keywords: Physics , Quantum physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Quantum Physics , Optics, Optoelectronics, Plasmonics and Optical Devices , Laser Technology, Photonics
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Call number:SPRINGER-1976-9781475785197:ONLINE Show nearby items on shelf
Title:Solid-State Laser Engineering
Author(s): Walter Koechner
Date:1976
Size:1 online resource (620 p.)
Note:10.1007/978-1-4757-8519-7
Contents:1 Optical amplification -- 2 Properties of solid-state laser materials -- 3 Laser oscillator -- 4 Laser amplifier -- 5 Optical resonator -- 6 Optical pump systems -- 7 Heat removal -- 8 Q-switches and external switching devices -- 9
Mode locking -- 10 Nonlinear devices -- 11 Design of lasers relevant to their application -- 12 Damage of optical elements -- Appendix A: Laser safety -- Appendix B: Conversion factors and constants
ISBN:9781475785197
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Optical Sciences: 1
Keywords: Physics , Quantum optics , Lasers , Photonics , Physics , Laser Technology, Photonics , Quantum Optics
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Call number:SPRINGER-1976-9781468462166:ONLINE Show nearby items on shelf
Title:Bibliography of Microwave Optical Technology
Author(s): A. F Harvey
Date:1976
Size:1 online resource (717 p.)
Note:10.1007/978-1-4684-6216-6
Contents:1. Radiation and Matter -- Section 1. Properties of Media -- Section 2. Lines with Purely Transverse Fields -- Section 3. Hollow Conducting Tubes -- Section 4. Resonant Interaction -- Section 5. Anisotropic Media -- Section 6.
Nonlinear Effects -- Section 7. Radiation Techniques -- Section 8. Practical Transmission Aspects -- II. Components and Devices -- Section 9. Free-Space Components -- Section 10. Guided-Wave Components -- Section 11. Resonant
Structures -- Section 12. Periodic and Guiding Structures -- Section 13. Solid-State Devices -- Section 14. Devices with Gyromagnetic Media -- Section 15. Gaseous-Discharge Devices -- Section 16. Beam-Type Antennas -- Section 17.
Manufacturing Techniques -- III. Amplification and Generation -- Section 18. Electron-Beam Tubes -- Section 19. Crossed-Field and High-Energy Generators -- Section 20. Theory of Stimulated Emission -- Section 21. Paramagnetic-Material
Lasers -- Section 22. Gaseous-Phase Lasers -- Section 23. Semiconductor Lasers -- Section 24. Construction and Operation of Lasers -- Section 25. Solid-State Sources -- Section 26. Indirect Operation -- IV. Transmission and Reception
-- Section 27. Radiation Properties of Generators -- Section 28. Frequency Filters -- Section 29. Image-Forming Antennas -- Section 30. Modulation Techniques -- Section 31. Radiation Detectors -- Section 32. Receiver Techniques --
Section 33. Low-Noise Amplifiers -- Section 34. Principles of Holography -- Section 35. Storage and Processing -- V. Measurement Principles and Techniques -- Section 36. Fundamental Quantities -- Section 37. Frequency Standards and
Stabilization -- Section 38. Wavelength and Frequency -- Section 39. Materials Parameters -- Section 40. Resonance Spectrometry -- Section 41. Radiation Scattering -- Section 42. Plasmas and Time Resolution -- Section 43. Noise and
Fluctuations -- Section 44. Radiation Parameters -- VI. Applications -- Section 45. Thermal and Industrial Aspects -- Section 46. Biological and Medical Aspects -- Section 47. Electron Accelerators -- Section 48. Guided-Wave
Communication -- Section 49. Terrestrial Propagation -- Section 50. Practical Antenna Features -- Section 51. Radio-Link Communication -- Section 52. Radar Techniques -- Section 53. Astronomy Techniques -- Author Index
ISBN:9781468462166
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Series:Solid State Physics Literature Guides, Prepared under the auspices of the Research Materials Information Center Oak Ridge National Laboratory : 8
Keywords: Physics , Solid state physics , Spectroscopy , Microscopy , Physics , Solid State Physics , Spectroscopy and Microscopy
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Call number:SPRINGER-1973-9781468416022:ONLINE Show nearby items on shelf
Title:Physical Processes in Lasers
Author(s):
Date:1973
Size:1 online resource (181 p.)
Note:10.1007/978-1-4684-1602-2
Contents:Mode Discrimination and the Self-Locking Effect in Solid-State Lasers Using a Bleachable Filter A. S. Markin -- 1. Q Switching of Lasers by Means of a Passive Shutter -- 2. Spectral Composition of Solid-State Laser Emission and Mode
Discrimination by Various Cavity Elements -- 3. Development of the Emission Pulse in the Case of Passive Switching -- 4. Self Mode Locking in a Solid-State Laser Using a Bleachable Filter -- Detection and Investigation of Stimulated
Emission in a Pinched Discharge V. M. Sutovsk -- 1. State of the Art of Pulsed Ionic Laser Research -- 2. On the Creation of Negative-Temperature States in a Pinch-Discharge Plasma -- 3. Investigation of the Characteristics of a Pinch
Discharge -- 4. Properties of Stimulated Emission in a Pinch-Discharge Plasma at the Transitions of Singly and Doubly Ionized Argon Atoms -- Chapters 5. Determination of the Parameters of the Pinch-Discharge Plasma -- Physical
Processes in Molecular Hydrogen, Deuterium, and First-Positive-Band-System Nitrogen Pulsed Gas-Discharge Lasers I. N. Knyaze -- 1. State of the Art of Research on Pulsed Gas-Discharge Lasers Statement of the Problem -- 2. Experimental
Methodological Problems -- 3. Pulsed Emission from H2, D2, and HD Molecules -- 4. Temporal and Energy Characteristics of the First-Positive-Band-System Molecular Nitrogen Laser -- 5. Stimulated Emission Spectrum of the N2(+1) Laser and
Interpretation of the Vibrational-Rotational Structural Features of this Spectrum -- 6. Aspects of the. Physics of Pulsed Discharge -- 7. Population Dynamics of the Upper Laser Levels in the 1+ Band System of N2 -- 8. Elementary
Quantitative Theory of Laser Action in the 1+ Band System of N2
ISBN:9781468416022
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:The Lebedev Physics Institute Series : 56
Keywords: Physics , Quantum physics , Physics , Quantum Physics
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Call number:QC1.SP83:V66 Show nearby items on shelf
Title:Quantum statistics in optics and solid-state physics. Statistical theory of instabilities in stationary nonequilibrium systems with applications to lasers and nonlinear optics [by] R. Graham. Statistical treatment of open systems by generalized master equations
Author(s): R. Graham
Date:1973
Publisher:Springer-Verlag, Berlin
Size:173
ISBN:0387061894
Series:Springer tracts in modern physics, v. 66
Keywords: Optics.
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