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SPIRES-BOOKS: FIND KEYWORD PULSE TECHNIQUES ELECTRONICS *END*INIT* use /tmp/qspiwww.webspi1/17829.5 QRY 131.225.70.96 . find keyword "pulse techniques electronics" ( in books using www
Call number:TK7835.L717 Show nearby items on shelf
Title:Pulse electronics.
Author(s): Raphael Littauer 1925-
Date:1965
Publisher:McGraw-Hill, New York
Size:530
Keywords: Pulse techniques (Electronics)
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Call number:TK7835.L47::1959 Show nearby items on shelf
Title:Millimicrosecond pulse techniques, by I.A.D. Lewis and F.H. Wells.
Author(s): Ian Alexander D. Lewis
Frank Herbert Wells
Date:1959
Edition:2d [extensively rev.] ed.
Publisher:Pergamon Press, London
Size:417
Series:International series of monographs on electronics and instrumentation, v. 5
Keywords: Pulse techniques (Electronics)
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Call number:TK7835.F94::1980:V4 Show nearby items on shelf
Title:High Speed Pulse Technology Volume 4 : Sparks and Laser Pulses
Author(s): Frank B. A. Frungel
Date:1980
Publisher:Academic Press
Note:Part of a 4 volume set
ISBN:0122690044
Keywords: Pulse Techniques (Electronics) , Condensers (Electricity)
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Call number:TK7835.F94::1976:V3 Show nearby items on shelf
Title:High Speed Pulse Technology Volume 3 : Capacitor Discharge Engineering
Author(s): Frank B. A. Frungel
Date:1976
Publisher:Academic Press
Note:Part of a 4 volume set
ISBN:01226900036
Keywords: Pulse Techniques (Electronics) , Capacitors , Electricity
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Call number:TK7835.F94::1965:V2 Show nearby items on shelf
Title:High Speed Pulse Technology Volume 2 : Optical Pulses - Lasers - Measuring Techniques
Author(s): B. A. Frungel
Date:1965
Publisher:Academic Press
Note:Part of a 4 volume set
Keywords: Pulse Techniques (Electronics) , Capacitors
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Call number:TK7835.F94 Show nearby items on shelf
Title:High Speed Pulse Technology Volume 1 : Capacitor Discharges - Magnetohydrodynamics Xrays - Ultrasonics
Author(s): Frank B.A. Frungel
Date:1965
Publisher:Academic Press, New York
Size:4
ISBN:01226900363
Keywords: Pulse Techniques (Electronics)
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Call number:TK7835.C65::1975 Show nearby items on shelf
Title:High-speed pulse techniques
Author(s): J.A. Coekin
Date:1975
Edition:1st ed.
Publisher:Pergamon Press, Oxford
Size:219
ISBN:0080187749
Series:Applied electricity and electronics 37B
Keywords: Pulse techniques (Electronics)
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Call number:SPRINGER-2014-9783319006963:ONLINE Show nearby items on shelf
Title:X-Ray Lasers 2012 [electronic resource] : Proceedings of the 13th International Conference on X-Ray Lasers, 1115 June 2012, Paris, France
Author(s): Stphane Sebban
Julien Gautier
David Ros
Philippe Zeitoun
Date:2014
Publisher:Cham : Springer International Publishing : Imprint: Springer
Size:1 online resource
Note:These proceedings comprise of invited and contributed papers presented at the 13th International Conference on X-Ray Lasers (ICXRL 2012) which was held 1115 June 2012 in Paris, in the famous Quartier Latin, inside thehistorical Center of Cordeliers. This conference is part of a continuing series dedicated to recent developments and applications of x-ray lasers and other coherent x-ray sources with attention to supporting technologies andinstrumentation. New results in the generation of intense, coher ent x-rays and progress towards practical devices and their applications are reported in these proceedings, including areas of research in plasma-based x-ray lasers, 4thgeneration accelerator-based sources and higher harmonic generation. Recent achievemen ts related to the increase of the repetition rate up to 100 Hz and shorter wavelength collisional plasma-based soft x-ray lasers down to about 7 nmare presented. Seeding the amplifying plasma with a femtosecond high-order harmonic of infrared laser was fo reseen as the required breakthrough to break the picosecond frontier. Numerical simulations based on the Maxwell-Bloch modelare presented in these proceedings, transposing the chirped pulse amplification technique to the x-ray domain in order to increase the time over which the femtosecond seed can be amplified. These proceedings also include innovativeapplications of soft xray lasers based on techniques and diagnostics relevant to topical domains such as EUV lithography, inertial confinement fusion, or w arm dense matter physics
Contents:Coherent Pulses from Seeded Free
Electron Laser in the Extreme Ultraviolet
Enhancement of Efficiency of XUV Generation in Atomic Gases Irradiated by Intense Laser Fields
All
Optical Raman XFEL, Based on the Electron Emission in a Transverse High Intensity Optical Lattice
Optical Transforms Related to Coherent Imaging of Inclined Objects
Soft X
Ray Lasing Down to 6.85 nm in Ni
like Samarium
Fourier Optical Study of Traveling
Wave Excitation at Short
Wavelength Plasma
Lasing
Coherent Short
Wavelength Plasma Radiation for Lab
Scale Nano
Inspection tools
Ion Temperature and Cr
ISBN:9783319006963
Series:eBooks
Series:SpringerLink
Series:Springer Proceedings in Physics, 0930-8989 : v147
Series:Physics and Astronomy (Springer-11651)
Keywords: Electronics
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Call number:SPRINGER-2010-9780387778457:ONLINE Show nearby items on shelf
Title:Ultra-Wideband, Short Pulse Electromagnetics 9 [electronic resource]
Author(s): Frank Sabath
D.V Giri
Farhad Rachidi
Armin Kaelin
Date:2010
Publisher:New York, NY : Springer New York : Imprint: Springer
Size:1 online resource
Note:Springer e-book platform
Note:Springer 2013 e-book collections
Note:Ultra-wideband (UWB), short-pulse (SP) electromagnetics are now being used for an increasingly wide variety of applications, including collision avoidance radar, concealed object detection, and communications. Notable progress inUWB and SP technologi es has been achieved by investigations of their theoretical bases and improvements in solid-state manufacturing, computers, and digitizers. UWB radar systems are also being used for mine clearing, oil pipelineinspections, archeology, geology, and electron ic effects testing. Ultra-wideband Short-Pulse Electromagnetics 9 presents selected papers of deep technical content and high scientific quality from the UWB-SP9 Conference, which was heldfrom July 21-25, 2008, in Lausanne, Switzerland. The wide-ranging c overage includes contributions on electromagnetic theory, time-domain computational techniques, modeling, antennas, pulsed-power, UWB interactions, radar systems, UWBcommunications, and broadband systems and components. This book serves as a state-of-the- art reference for scientists and engineers working in these applications areas
Note:Springer eBooks
ISBN:9780387778457
Series:e-books
Series:SpringerLink (Online service)
Series:Physics and Astronomy (Springer-11651)
Keywords: Microwaves , Electronics , Systems engineering
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Call number:SPRINGER-1994-9783642579202:ONLINE Show nearby items on shelf
Title:Techniques for Nuclear and Particle Physics Experiments A How-to Approach
Author(s): William R Leo
Date:1994
Edition:Second Revised Edition
Size:1 online resource (382 p.)
Note:10.1007/978-3-642-57920-2
Contents:1. Basic Nuclear Processes in Radioactive Sources -- 1.1 Nuclear Level Diagrams -- 1.2 Alpha Decay -- 1.3 Beta Decay -- 1.4 Electron Capture (EC) -- 1.5 Gamma Emission -- 1.5.1 Isomeric States -- 1.6 Annihilation Radiation -- 1.7
Internal Conversion -- 1.8 Auger Electrons -- 1.9 Neutron Sources -- 1.9.1 Spontaneous Fission -- 1.9.2 Nuclear Reactions -- 1.10 Source Activity Units -- 1.11 The Radioactive Decay Law -- 1.11.1 Fluctuations in Radioactive Decay --
1.11.2 Radioactive Decay Chains -- 1.11.3 Radioisotope Production by Irradiation -- 2. Passage of Radiation Through Matter -- 2.1 Preliminary Notions and Definitions -- 2.1.1 The Cross Section -- 2.1.2 Interaction Probability in a
Distance x. Mean Free Path -- 2.1.3 Surface Density Units -- 2.2 Energy Loss of Heavy Charged Particles by Atomic Collisions -- 2.2.1 Bohr’s Calculation — The Classical Case -- 2.2.2 The Bethe-Bloch Formula -- 2.2.3 Energy Dependence
-- 2.2.4 Scaling Laws for dE/dx -- 2.2.5 Mass Stopping Power -- 2.2.6 dE/dx for Mixtures and Compounds -- 2.2.7 Limitations of the Bethe-Bloch Formula and Other Effects -- 2.2.8 Channeling -- 2.2.9 Range -- 2.3 Cherenkov Radiation --
2.4 Energy Loss of Electrons and Positrons -- 2.4.1 Collision Loss -- 2.4.2 Energy Loss by Radiation: Bremsstrahlung -- 2.4.3 Electron-Electron Bremsstrahlung -- 2.4.4 Critical Energy -- 2.4.5 Radiation Length -- 2.4.6 Range of
Electrons -- 2.4.7 The Absorption of ? Electrons -- 2.5 Multiple Coulomb Scattering -- 2.5.1 Multiple Scattering in the Gaussian Approximation -- 2.5.2 Backscattering of Low-Energy Electrons -- 2.6 Energy Straggling: The Energy Loss
Distribution -- 2.6.1 Thick Absorbers: The Gaussian Limit -- 2.6.2 Very Thick Absorbers -- 2.6.3 Thin Absorbers: The Landau and Vavilov Theories -- 2.7 The Interaction of Photons -- 2.7.1 Photoelectric Effect -- 2.7.2 Compton
Scattering -- 2.7.3 Pair Production -- 2.7.4 Electron-Photon Showers -- 2.7.5 The Total Absorption Coefficient and Photon Attenuation -- 2.8 The Interaction of Neutrons -- 2.8.1 Slowing Down of Neutrons. Moderation -- 3. Radiation
Protection. Biological Effects of Radiation -- 3.1 Dosimetric Units -- 3.1.1 The Roentgen -- 3.1.2 Absorbed Dose -- 3.1.3 Relative Biological Effectiveness (RBE) -- 3.1.4 Equivalent Dose -- 3.1.5 Effective Dose -- 3.2 Typical Doses
from Sources in the Environment -- 3.3 Biological Effects -- 3.3.1 High Doses Received in a Short Time -- 3.3.2 Low-Level Doses -- 3.4 Dose Limits -- 3.5 Shielding -- 3.6 Radiation Safety in the Nuclear Physics Laboratory -- 4.
Statistics and the Treatment of Experimental Data -- 4.1 Characteristics of Probability Distributions -- 4.1.1 Cumulative Distributions -- 4.1.2 Expectation Values -- 4.1.3 Distribution Moments. The Mean and Variance -- 4.1.4 The
Covariance -- 4.2 Some Common Probability Distributions -- 4.2.1 The Binomial Distribution -- 4.2.2 The Poisson Distribution -- 4.2.3 The Gaussian or Normal Distribution -- 4.2.4 The Chi-Square Distribution -- 4.3 Measurement Errors
and the Measurement Process -- 4.3.1 Systematic Errors -- 4.3.2 Random Errors -- 4.4 Sampling and Parameter Estimation. The Maximum Likelihood Method -- 4.4.1 Sample Moments -- 4.4.2 The Maximum Likelihood Method -- 4.4.3 Estimator for
the Poisson Distribution -- 4.4.4 Estimators for the Gaussian Distribution -- 4.4.5 The Weighted Mean -- 4.5 Examples of Applications -- 4.5.1 Mean and Error from a Series of Measurements -- 4.5.2 Combining Data with Different Errors
-- 4.5.3 Determination of Count Rates and Their Errors -- 4.5.4 Null Experiments. Setting Confidence Limits When No Counts Are Observed -- 4.5.5 Distribution of Time Intervals Between Counts -- 4.6 Propagation of Errors -- 4.6.1
Examples -- 4.7 Curve Fitting -- 4.7.1 The Least Squares Method -- 4.7.2 Linear Fits. The Straight Line -- 4.7.3 Linear Fits When Both Variables Have Errors -- 4.7.4 Nonlinear Fits -- 4.8 Some General Rules for Rounding-off Numbers for
Final Presentation -- 5. General Characteristics of Detectors -- 5.1 Sensitivity -- 5.2 Detector Response -- 5.3 Energy Resolution. The Fano Factor -- 5.4 The Response Function -- 5.5 Response Time -- 5.6 Detector Efficiency -- 5.7
Dead Time -- 5.7.1 Measuring Dead Time -- 6. Ionization Detectors -- 6.1 Gaseous Ionization Detectors -- 6.2 Ionization and Transport Phenomena in Gases -- 6.2.1 Ionization Mechanisms -- 6.2.2 Mean Number of Electron-Ion Pairs Created
-- 6.2.3 Recombination and Electron Attachment -- 6.3 Transport of Electrons and Ions in Gases -- 6.3.1 Diffusion -- 6.3.2 Drift and Mobility -- 6.4 Avalanche Multiplication -- 6.5 The Cylindrical Proportional Counter -- 6.5.1 Pulse
Formation and Shape -- 6.5.2 Choice of Fill Gas -- 6.6 The Multiwire Proportional Chamber (MWPC) -- 6.6.1 Basic Operating Principle -- 6.6.2 Construction -- 6.6.3 Chamber Gas -- 6.6.4 Timing Resolution -- 6.6.5 Readout Methods -- 6.6.6
Track Clusters -- 6.6.7 MWPC Efficiency -- 6.7 The Drift Chamber -- 6.7.1 Drift Gases -- 6.7.2 Spatial Resolution -- 6.7.3 Operation in Magnetic Fields -- 6.8 The Time Projection Chamber (TPC) -- 6.9 Liquid Ionization Detectors (LID)
-- 7. Scintillation Detectors -- 7.1 General Characteristics -- 7.2 Organic Scintillators -- 7.2.1 Organic Crystals -- 7.2.2 Organic Liquids -- 7.2.3 Plastics -- 7.3 Inorganic Crystals -- 7.4 Gaseous Scintillators -- 7.5 Glasses -- 7.6
Light Output Response -- 7.6.1 Linearity -- 7.6.2 Temperature Dependence -- 7.6.3 Pulse Shape Discrimination (PSD) -- 7.7 Intrinsic Detection Efficiency for Various Radiations -- 7.7.1 Heavy Ions -- 7.7.2 Electrons -- 7.7.3 Gamma Rays
-- 7.7.4 Neutrons -- 8. Photomultipliers -- 8.1 Basic Construction and Operation -- 8.2 The Photocathode -- 8.3 The Electron-Optical Input System -- 8.4 The Electron-Multiplier Section -- 8.4.1 Dynode Configurations -- 8.4.2 Multiplier
Response: The Single-Electron Spectrum -- 8.5 Operating Parameters -- 8.5.1 Gain and Voltage Supply -- 8.5.2 Voltage Dividers -- 8.5.3 Electrode Current. Linearity -- 8.5.4 Pulse Shape -- 8.6 Time Response and Resolution -- 8.7 Noise
-- 8.7.1 Dark Current and Afterpulsing -- 8.7.2 Statistical Noise -- 8.8 Environmental Factors -- 8.8.1 Exposure to Ambient Light -- 8.8.2 Magnetic Fields -- 8.8.3 Temperature Effects -- 8.9 Gain Stability, Count Rate Shift -- 9.
Scintillation Detector Mounting and Operation -- 9.1 Light Collection -- 9.1.1 Reflection -- 9.2 Coupling to the PM -- 9.3 Multiple Photomultipliers -- 9.4 Light Guides -- 9.5 Fluorescent Radiation Converters -- 9.6 Mounting a
Scintillation Detector: An Example -- 9.7 Scintillation Counter Operation -- 9.7.1 Testing the Counter -- 9.7.2 Adjusting the PM Voltage -- 9.7.3 The Scintillation Counter Plateau -- 9.7.4 Maintaining PM Gain -- 10. Semiconductor
Detectors -- 10.1 Basic Semiconductor Properties -- 10.1.1 Energy Band Structure -- 10.1.2 Charge Carriers in Semiconductors -- 10.1.3 Intrinsic Charge Carrier Concentration -- 10.1.4 Mobility -- 10.1.5 Recombination and Trapping --
10.2 Doped Semiconductors -- 10.2.1 Compensation -- 10.3 The np Semiconductor Junction. Depletion Depth -- 10.3.1 The Depletion Depth -- 10.3.2 Junction Capacitance -- 10.3.3 Reversed Bias Junctions -- 10.4 Detector Characteristics of
Semiconductors -- 10.4.1 Average Energy per Electron-Hole Pair -- 10.4.2 Linearity -- 10.4.3 The Fano Factor and Intrinsic Energy Resolution -- 10.4.4 Leakage Current -- 10.4.5 Sensitivity and Intrinsic Efficiency -- 10.4.6 Pulse
Shape. Rise Time -- 10.5 Silicon Diode Detectors -- 10.5.1 Diffused Junction Diodes -- 10.5.2 Surface Barrier Detectors (SSB) -- 10.5.3 Ion-Implanted Diodes -- 10.5.4 Lithium-Drifted Silicon Diodes — Si(Li) -- 10.6 Position-Sensitive
Detectors -- 10.6.1 Continuous and Discrete Detectors -- 10.6.2 Micro-Strip Detectors -- 10.6.3 Novel Position-Sensing Detectors -- 10.7 Germanium Detectors -- 10.7.1 Lithium-Drifted Germanium — Ge(Li) -- 10.7.2 Intrinsic Germanium --
10.7.3 Gamma Spectroscopy with Germanium Detectors -- 10.8 Other Semiconductor Materials -- 10.9 Operation of Semiconductor Detectors -- 10.9.1 Bias Voltage -- 10.9.2 Signal Amplification -- 10.9.3 Temperature Effects -- 10.9.4
Radiation Damage -- 10.9.5 Plasma Effects -- 11. Pulse Signals in Nuclear Electronics -- 11.1 Pulse Signal Terminology -- 11.2 Analog and Digital Signals -- 11.3 Fast and Slow Signals -- 11.4 The Frequency Domain. Bandwidth -- 12. The
NIM Standard -- 12.1 Modules -- 12.2 Power Bins -- 12.3 NIM Logic Signals -- 12.4 TTL and ECL Logic Signals -- 12.5 Analog Signals -- 13. Signal Transmission -- 13.1 Coaxial Cables -- 13.1.1 Line Constituents -- 13.2 The General Wave
Equation for a Coaxial Line -- 13.3 The Ideal Lossless Cable -- 13.3.1 Characteristic Impedance -- 13.4 Reflections -- 13.5 Cable Termination. Impedance Matching -- 13.6 Losses in Coaxial Cables. Pulse Distortion -- 13.6.1 Cable
Response. Pulse Distortion -- 14. Electronics for Pulse Signal Processing -- 14.1 Preamplifiers -- 14.1.1 Resistive vs Optical Feedback -- 14.2 Main Amplifiers -- 14.3 Pulse Shaping Networks in Amplifiers -- 14.3.1 CR-RC Pulse Shaping
-- 14.3.2 Pole-Zero Cancellation and Baseline Restoration -- 14.3.3 Double Differentiation or CR-RC-CR Shaping -- 14.3.4 Semi-Gaussian Shaping -- 14.3.5 Delay Line Shaping -- 14.4 Biased Amplifiers -- 14.5 Pulse Stretchers -- 14.6
Linear Transmission Gate -- 14.7 Fan-out and Fan-in -- 14.8 Delay Lines -- 14.9 Discriminators -- 14.9.1 Shapers -- 14.10 Single-Channel Analyzer (Differential Discriminator) -- 14.11 Analog-to-Digital Converters (ADC or A/D) --
14.11.1 ADC Linearity -- 14.12 Multichannel Analyzers -- 14.13 Digital-to-Analog Converters (DAC or D/A) -- 14.14 Time to Amplitude Converters (TAC or TPHC) -- 14.15 Scalers -- 14.16 Ratemeter -- 14.17 Coincidence Units -- 14.18
Majority Logic Units -- 14.19 Flip-Flops -- 14.20 Registers (Latches) -- 14.21 Gate and Delay Generators -- 14.22 Some Simple and Handy Circuits for Pulse Manipulation -- 14.22.1 Attenuators -- 14.22.2 Pulse Splitting -- 14.22.3
ISBN:9783642579202
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Nuclear physics , Engineering , Physics , Particle and Nuclear Physics , Engineering, general
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Call number:SPRINGER-1987-9783642729706:ONLINE Show nearby items on shelf
Title:Picosecond Electronics and Optoelectronics II Proceedings of the Second OSA-IEEE (LEOS) Incline Village, Nevada, January 14–16, 1987
Author(s):
Date:1987
Size:1 online resource (290 p.)
Note:10.1007/978-3-642-72970-6
Contents:I High-Speed Probing Techniques -- A Non-contact Electro-optic Prober for High Speed Integrated Circuits -- Photoconductive Generation of Subpicosecond Electrical Pulses and Their Measurement Applications -- Picosecond Sampling of
GaAs Integrated Circuits -- Electro-optic Sampling of High-Speed, InP-Based Integrated Circuits -- Electro-optic Sampling Analysis of Timing Patterns at Critical Internal Nodes in Gigabit GaAs Multiplexers/Demultiplexers -- A Technique
for Wing Suppressed IR Sampling -- Picosecond Electrical Pulse for VLSI Electronics Characterization -- Ultrafast Optics Applied to Modern Device Research -- An Optically Strobed Sample and Hold Circuit -- Laser Pulsed E-Beam System
for High Speed I.C. Testing -- Photoemissive Testing of High-Speed Electrical Waveforms -- High-Speed Optical Logic Using GaAs -- Comparison of Sampling Oscilloscopes with ?35 ps Transition Durations -- Picosecond Optoelectronic Study
of a Thin Film Transmission Line Structure -- II Transient Transport -- Direct Subpicosecond Measurement of Carrier Mobility of Photoexcited Electrons in GaAs -- Nonstationary Transport in MODFETs and Heterojunction Devices -- Monte
Carlo Investigation of Hot Photoexcited Electron Relaxation in GaAs -- Longitudinally Localized Optical Carrier Injection for Femtosecond Transport Studies -- Femtosecond Nonequilibrium Electronic Heat Transport in Thin Gold Films --
III Ballistic Transport and Resonant Tunneling -- Ballistic Transport and Energy Spectroscopy of Hot Electrons in THETA Devices -- Microwave and Millimeter-Wave Resonant Tunneling Diodes -- Quantum Transport Calculation of
Resonant-Tunneling Response Time( -- Resonant Tunneling Electron Spectroscopy -- Analysis of Transit Time Effects due to Spacer Layers in Quantum Well Oscillators -- IV Quantum Wells -- High-Speed Phenomena in GaAs
Multiple-Quantum-Well Structures -- Picosecond Carrier Transport in GaAs Quantum Wells -- Quantum-Confined Stark Effect in InGaAs/InP Quantum Wells Grown by Metal-Organic Chemical Vapor Deposition -- Dynamics of Below-Gap
Photoexcitation in GaAs Quantum Wells -- Optical Reading of InGaAs Modulation Doped Field Effect Transistor -- V High-Speed Electronic Devices -- Molecular Beam Epitaxy (MBE) for High-Speed Devices -- Multigigahertz Logic Based on InP
MISFETs Exhibiting Extremely High Transconductance -- Millimeter-Wave Integrated Circuits -- Enhanced Performance Ultrabroadband Distributed Amplifiers -- High-Performance Quarter-Micron-Gate MODFET -- Progress and Challenges in HEMT
LSI Technology -- Picosecond Switching in Josephson Tunnel Junctions -- Modulation Efficiency Limited High Frequency Performance of the MODFET -- Development of 18 GHz GaAs Static Frequency Dividers and Their Evaluation by Electrooptic
Sampling -- Characteristics of Shielded Microstrip Lines on GaAs-Si at Millimeter-Wave Frequencies -- VI Fast Lasers and Detectors -- Characteristics, Packaging and Physics of Ultra High Speed Diode Lasers and Detectors -- Energy
Variations in Optical Pulses from Gain-Switched AlGaAs Diode Lasers -- Frequency Chirping in Pulse Modulated Gain and Index Guided Single Quantum Well Lasers -- InP/GaInAs/InP PIN Photodiode with FWHM of Photoconductive Picosecond
Microstripline Switches on Self-Implanted Silicon on Sapphire (SOS) -- Picosecond Optoelectronic Switches Using Composite Electronic Materials -- High Speed, High Repetition Rate, High Voltage Photoconductive Switching -- Generation
and Forming of Ultrashort High Voltage Pulses -- Silicon Pulse Sharpening Diodes — Switching Kilovolts in Tens of Picoseconds -- Graphite as a Picosecond Laser Activated Opening Switch -- VIII Optical Microwave Techniques -- Radar and
Electronic Warfare Applications of Multigigahertz Optical Components and Systems -- Characteristics and Applications of Wideband Guided-Wave Devices -- A New Optoelectronic CW Microwave Source -- Optical Intensity Modulation to 40 GHz
Using a Waveguide Electrooptic Switch -- Picosecond Response of an Optically Controlled Millimeter Wave Phase Shifter -- Picosecond Optoelectronic Transceivers -- High Speed Opto-isolator for Radar Applications -- Index of Contributors
ISBN:9783642729706
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Electronics and Photonics: 24
Keywords: Physics , Optics , Optoelectronics , Plasmons (Physics) , Electronics , Microelectronics , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices , Electronics and Microelectronics, Instrumentation
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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
Series:SpringerLink (Online service)
Series:Springer eBooks
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-1985-9783642707803:ONLINE Show nearby items on shelf
Title:Picosecond Electronics and Optoelectronics Proceedings of the Topical Meeting Lake Tahoe, Nevada, March 13–15, 1985
Author(s):
Date:1985
Size:1 online resource (258 p.)
Note:10.1007/978-3-642-70780-3
Contents:I Ultrafast Optics and Electronics -- Ultrafast Optical Electronics: From Femtoseconds to Terahertz. (With 3 Figures) -- Prospects of High-Speed Semiconductor Devices. (With 6 Figures) -- The Role of Ultrashort Optical Pulses in
High-Speed Electronics. (With 2 Figures) -- GaAs Integrated Circuit Technology for High Speed Analog and Digital Electronics. (With 7 Figures) -- Heterojunction Bipolar Transistor Technology for High-Speed Integrated Circuits. (With 5
Figures) -- Permeable Base Transistor. (With 6 Figures) -- Two Dimensional E-Field Mapping with Subpicosecond Resolution. (With 4 Figures) -- Picosecond Electrooptic Sampling and Harmonic Mixing in GaAs. (With 3 Figures) --
Characterization of TEGFETs and MESFETs Using the Electrooptic Sampling Techniques. (With 4 Figures) -- Picosecond Electro-Electron Optic Oscilloscope. (With 5 Figures) -- Picosecond Optoelectronic Diagnostics of Field Effect
Transistors. (With 4 Figures) -- Time-Domain Measurements for Silicon Intergrated Circuit Testing Using Photoconductors. (With 3 Figures) -- Modeling of Picosecond Pulse Propagation on Silicon Integrated Circuits. (With 4 Figures) --
II High-Speed Phenomena in Bulk Semiconductors -- Picosecond Processes in Carrier Transport Theory. (With 4 Figures) -- Carrier-Carrier Interaction and Picosecond Phenomena in Polar Semiconductors. (With 4 Figures) -- Subpicosecond
Raman Spectroscopy of Electron-LO Phonon Dynamics in GaAs. (With 3 Figures) -- Acoustic Phonon Generation in the Picosecond Dynamics of Dense Electron-Hole Plasmas in InGaAsP Films. (With 3 Figures) -- Picosecond Time-Resolved
Photoemission Study of the InP (110) Surface. (With 2 Figures) -- Monte Carlo Investigation of Hot Carriers Generated by Subpicosecond Laser Pulses in Schottky Barrier Diodes. (With 2 Figures) -- III Quantum Structures and Applications
-- Properties of GaAlAs/GaAs Quantum Well Heterostructures Grown by Metalorganic Chemical Vapor Deposition -- Molecular Beam Epitaxy Materials for High-Speed Digital Heterostructure Devices. (With 4 Figures) -- New High-Speed Quantum
Well and Variable Gap Superlattice Devices. (With 18 Figures) -- Electric Field-Induced Decrease of Exciton Lifetimes in GaAs Quantum Wells. (With 2 Figures) -- Reduction of Electron-Phonon Scattering Rates by Total Spatial
Quantization. (With 3 Figures) -- Hot Electron Diffusion in Superlattices. (With 3 Figures) -- Time-Resolved Photoluminescence of GaAs/AlxGa1?xAs Quantum Well Structures Grown by Metal-Organic Chemical Vapor Deposition. (With 5
Figures) -- A Study of Exciton and Carrier Dynamics and a Demonstration of One-Picosecond Optical NOR Gate Operation of a GaAs-AlGaAs Device. (With 2 Figures) -- Exciton-Exciton Interaction in GaAs-GaAlAs Superlattices. (With 3
Figures) -- IV Picosecond Diode Lasers -- An InGaAsP 1.55 ?m Mode-Locked Laser with a Single-Mode Fiber Output. (With 7 Figures) -- Fast Multiple Quantum Well Absorber for Mode Locking of Semiconductor Lasers. (With 3 Figures) --
Suppression of Timing and Energy Fluctuations in a Modelocked Semiconductor Laser by cw Injection. (With 5 Figures) -- Parametric Oscillations in Semiconductor Lasers -- V Optoelectronics and Photoconductive Switching -- Ultrafast
Traveling-Wave Light Modulators with Reduced Velocity Mismatch. (With 4 Figures) -- Modulation of an Optical Beam by a Second Optical Beam in Biased Semi-Insulating GaAs. (With 6 Figures) -- 22-GHz Bandwidth InGaAs/InP PIN Photodiodes
(With 4 Figures) -- An Ultrafast Diffusion-Driven Detector. (With 1 Figure) -- Picosecond Photoconductivity in Polycrystalline CdTe Films Prepared by UV-Enhanced OMCVD. (With 3 Figures) -- High-Speed Internal Photoemission Detectors
Enhanced by Grating Coupling to Surface Plasma Waves. (With 3 Figures) -- Submicron-Gap Photoconductive Switching in Silicon. (With 4 Figures) -- Hertzian Dipole Measurements with InP Photoconductors. (With 3 Figures) -- Pulse Waveform
Standards for Electro-Optics -- High-Speed Optoelectronic Track-and-Hold Circuits in Hybrid Signal Processors for Wideband Radar. (With 4 Figures) -- Optoelectronic Modulation of Millimeter Waves in a Silicon-on-Sapphire Waveguide.
(With 4 Figures) -- Direct DC to RF Conversion by Impulse Excitation of a Resonant Cavity. (With 4 Figures) -- Kilovolt Sequential Waveform Generation by Picosecond Optoelectronic Switching in Silicon. (With 4 Figures) -- Femtosecond
Nonlinearities of Standard Optical Glasses. (With 3 Figures) -- VI Cryoelectronics -- High-Speed Analog Signal Processing with Superconductive Circuits. (With 7 Figures) -- Picosecond Sampling with Josephson Junctions. (With 5 Figures)
-- Transmission Line Designs with a Measured Step Response of 3ps per Centimeter. (With 5 Figures) -- Development of a Picosecond Cryo-Sampler Using Electro-Optic Techniques. (With 4 Figures) -- Picosecond Josephson Logic Gates for
Digital LSIs. (With 5 Figures) -- Index of Contributors
ISBN:9783642707803
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Electrophysics: 21
Keywords: Engineering , Optics , Optoelectronics , Plasmons (Physics) , Electronics , Microelectronics , Engineering , Electronics and Microelectronics, Instrumentation , Optics, Optoelectronics, Plasmonics and Optical Devices
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Cover
Image
Call number:SPRINGER-1984-9783642823787:ONLINE Show nearby items on shelf
Title:Ultrafast Phenomena IV Proceedings of the Fourth International Conference Monterey, California, June 11–15, 1984
Author(s):
Date:1984
Size:1 online resource (512 p.)
Note:10.1007/978-3-642-82378-7
Contents:I Generation and Measurement Techniques -- II Solid State Physics and Nonlinear Optics -- III Coherent Pulse Propagation -- IV Stimulated Scattering -- V Transient Laser Photochemistry -- VI Molecular Energy Redistribution, Transfer,
and Relaxation -- VII Electronics and Opto-Electronics -- VIII Photochemistry and Photophysics of Proteins, Chlorophyll, Visual Pigments, and Other Biological Systems -- Index of Contributors
ISBN:9783642823787
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Chemical Physics: 38
Keywords: Physics , Physical chemistry , Quantum optics , Biophysics , Biological physics , Lasers , Photonics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices , Laser Technology, Photonics , Quantum Optics , Physical Chemistry , Biophysics and Biological Physics
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Call number:QC793.46.L46::1994 Show nearby items on shelf
Title:Techniques for nuclear and particle physics experiments: A How-to approach
Author(s): William R. Leo 1948-
Date:1994
Edition:2nd rev. ed.
Publisher:Springer-Verlag: New York
Size:378 pgs.
Contents:1. Basic Nuclear Processes in Radioactive Sources, 2. Passage of Radiation Through Matter, 3. Radiation Protection: Biological Effects of Radiation, 4. Statistics and the Treatment of Experimental Data, 5. General Characteristics of Detectors, 6. Ionization Detectors, 7. Scintillaiton Detectors, 8. Photomultipliers, 9. Scintillaiton Detector Mounting and Operation, 10. Semiconductor Detectors, 11. Pulse Signals in Nuclear Electronics, 12. The NIM Standard, 13. Signal Transmission, 14. Electronics for Pulse Signal Processing, 15. Pulse Height Selection and Coincidence Technique, 16. Electronic Logic for Experiments, 17. Timing Methods and Systems, 18. Computer Controlled Electronics: CAMAC
Appendices: A. A Review of Oscilloscope Functions, B. Physical and Numerical Constants, C. Resistor Color Code
ISBN:3540572805
Keywords: Particles (Nuclear physics) - Technique , Particles (Nuclear physics) - Experiments , Nuclear Counters
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