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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:9781596931282:ONLINE Show nearby items on shelf
Title:Designing bipolar transistor radio frequency integrated circuits
Author(s): Allen A. Sweet
Date:2008
Publisher:Artech House
Size:1 online resource (317 p.)
Contents:Chapter 1 Introduction -- Chapter 2 Applications . Cellular-PCS Handsets and Infrastructure -- WLANs -- Bluetooth -- UWB -- WiMax -- Digital TV and Set-Top Boxes -- Cognitive Radio -- Spectrum Allocation in the United States -- Physical Layer Standa rds -- Chapter 3 RFIC Architectures . IQ Receivers -- IQ Modulators -- Nonzero IF Receivers -- Zero IF Receivers -- Differential versus Single-Ended Topologies -- Chapter 4 InGaP GaAs HBT Fabrication Technology -- Transistor Structures -- Device Models -- Passive Structures, Electrical Models, and Layout Design Rules -- Microstrip Lines -- TFR Resistors -- M1-to-M2 Vias -- MIM Capacitors -- Substrate Vias -- Bonding Pads -- Crossover Capacitances -- Spiral Inductors -- Transistor Dummy Cells -- Significan t Layout Parasitic Elements -- Simple Layout Example -- Maximum Electrical Ratings -- CAD Layout Tools -- Chapter 5 SiGe HBT Fabrication Technology and Transistor Structures -- Transistor Device Models -- Passive Device Structures and Models -- Design Rul es -- CAD Layout -- Chapter 6 Passive Circuit Design -- Filters - Low Pass, High Pass, Band Pass, and Differential -- Technology and Substrates . Splitters and Dividers -- Phase Shifters and Baluns -- Chapter 7 Amplifier Design Basics -- Matching Techniqu es -- Gain Compensation -- Fano.s Limit -- Stability -- Noise Match -- Differential Amplifiers -- Cascode Amplifiers
Chapter 8 Low-Noise Amplifier Design -- Noise Figure Concepts -- Noise Temperature -- Front-end Attenuation and LNAs -- Multistage Noise Figure Contributions -- Circuit Topologies for Low Noise -- Single-Ended PCS LNA -- Three-Transistor Hybrid Darl ington Differential LNA Using SiGe Technology -- Chapter 9 Power Amplifier Design -- Loadline Concepts -- Maximum Power and Efficiency -- Class AB Power Amplifiers -- Nonlinear Performance Metrics -- Adjacent Channel Power Ratio -- Error Vector Magnitude -- Circuit Topologies for PAs -- Matching Circuit Options -- Stability -- Bias Circuits -- Wideband Gain Block Darlington Amplifier -- Feedback Power Amplifier Design -- Chapter 10 Designing Multistage Amplifiers -- Multistage LNAs -- Multistage Power Amp lifiers -- Gain and Power Allocations -- Active Device Sizing -- Differential PCS PA -- Chapter 11 Mixer Modulator Design -- Mixer Basics -- Diode Mixers -- Single-Balanced Active Multiplying Mixers -- Fully Balanced Active Multiplying Mixers (Gilbert cel l) -- IQ Mixers -- IQ Modulators . Cellular-PCS Downconverting Mixer RFIC -- Chapter 12 Frequency Multiplier Design -- Frequency Doublers -- Frequency Triplers -- Frequency Translators
Chapter 13 Voltage-Controlled Oscillator Design -- Varactor Diode Basics -- Negative-Resistance Concepts -- Types of Resonators -- Feedback Circuit Topologies for Producing Negative Resistance -- Negative-Resistance Oscillator Circuits -- Colpitts O scillator Circuit -- Frequency-Temperature Stability -- Phase Noise -- Quadrature Phase-Shifting Networks -- Ring Oscillators -- Electronic Tuning and a Differential VCO Topology -- Chapter 14 Layout Design Strategies -- Minimum Area -- On-Chip versus Of f-Chip Component Decisions -- Minimizing Parasitics -- Testability -- Types of CAD Systems -- Foundry Comparison -- Reticle Assembly -- Chapter 15 RFIC Economics -- Levels of Integration -- Single-Ended versus Differential Topologies -- Process Technology Choices -- Area versus Performance Trade-offs -- Electrical Yield -- Prototype Costs -- Production Costs
ISBN:9781596931282
Series:Artech House microwave library
Series:eBooks
Series:Artech eBooks
Keywords: Radio frequency integrated circuits.
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Call number:TK7871.96.M53G74::2007 Show nearby items on shelf
Title:RF and microwave transistor oscillator design
Author(s): Andrei Grebennikov
Date:2007
Publisher:Chichester : John Wiley
Size:441 p.
Contents:Preface. -- Acknowledgements. -- 1 Nonlinear circuit design methods. -- 1.1 Spectral domain analysis. -- 1.2 Time domain analysis. -- 1.3 Newton Raphson algorithm. -- 1.4 Quasilinear method. -- 1.5 Van der Pol method. -- 1.6 Computer aided analysis and design. -- 2 Oscillator operation and design principles. -- 2.1 Steady state operation mode. -- 2.2 Start up conditions. -- 2.3 Oscillator configurations and historical aspects. -- 2.4 Self bias condition. -- 2.5 Oscillator analysis using matrix techniques. -- 2.6 Dual transistor oscillators. -- 2.7 Transmission line oscillator. -- 2.8 Push push oscillator. -- 2.9 Triple push oscillator. -- 2.10 Oscillator with delay line
3.1 Negative resistance oscillator circuits. -- 3.2 General single frequency stability condition. -- 3.3 Single resonant circuit oscillators. -- 3.4 Double resonant circuit oscillator. -- 3.5 Stability of multi resonant circuits. -- 3.6 Phase plane method. -- 3.7 Nyquist stability criterion. -- 3.8 Start up and stability. -- 4 Optimum design and circuit technique. -- 4.1 Empirical optimum design approach. -- 4.2 Analytic optimum design approach. -- 4.3 Parallel feedback oscillators. -- 4.4 Series feedback bipolar oscillators. -- 4.5 Series feedback MESFET oscillators. -- 4.6 High efficiency design technique. -- 4.7 Practical oscillator schematics. -- 5 Noise in oscillators. -- 5.1 Noise figure. -- 5.2 Flicker noise. -- 5.3 Active device noise modelling. -- 5.4 Oscillator noise spectrum: linear model. -- 5.5 Oscillator noise spectrum: nonlinear model. -- 5.6 Loaded quality factor. -- 5.7 Amplitude to phase conversion. -- 5.8 Oscillator pulling figure. -- 6 Varactor and oscillator frequency tuning. -- 6.1 Varactor modelling. -- 6.2 Varactor nonlinearity. -- 6.3 Frequency modulation. -- 6.4 Anti series varactor pair. -- 6.5 Tuning linearity. -- 6.6 Reactance compensation technique. -- 6.7 Practical VCO schematics.
7 CMOS voltage controlled oscillators. -- 7.1 MOS varactor. -- 7.2 Phase noise. -- 7.3 Flicker noise. -- 7.4 Tank inductor. -- 7.5 Circuit design concepts and technique. -- 7.6 Implementation technology issues. -- 7.7 Practical schematics of CMOS VCOs. -- 8 Wideband voltage controlled oscillators. -- 8.1 Main requirements. -- 8.2 Single resonant circuits with lumped elements. -- 8.3 Double resonant circuit with lumped elements. -- 8.4 Transmission line circuit realization. -- 8.5 VCO circuit design aspects. -- 8.6 Wideband nonlinear design. -- 8.7 Dual mode varactor tuning. -- 8.8 Practical RF and microwave wideband VCOs. -- -- 9 Noise reduction techniques. -- 9.1 Resonant circuit design technique. -- 9.2 Low frequency loading and feedback optimization. -- 9.3 Filtering technique. -- 9.4 Noise shifting technique. -- 9.5 Impedance noise match
ISBN:9780470025352
Keywords: Microwave transistors. , Radio frequency oscillators. , Oscillators, Transistor.
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Call number:TK7815.H785::1980 Show nearby items on shelf
Title:The art of electronics
Author(s): Paul Horowitz 1942-
Winfield Hill
Date:1980
Publisher:Cambridge University Press, Cambridge, [Eng
Size:716
Contents:Foundations -- Transistors -- Feedback and operational amplifiers -- Active filters and oscillators -- Voltage regulators and power circuits -- Field-effect transistors -- Precision circuits and low-noise techniques -- Digital electronics -- Digital meets analog -- minicomputers -- microprocessors -- Electronic constructions techniques -- High-frequency and high-speed techniques -- Measurement and signal processing -- App. a. The oscilloscope -- App. b. Math review -- App. c. The 5% resistor [five percent resistor] color code -- App. d. 1% [one percent] precision resistors -- App. e. How to draw schematic diagrams -- App. f. Load lines -- App. g. Transistor saturation -- App. h. LC Butterworth filters -- App. i. Electronics magazine and journals -- App. j. IC generic types -- App. k. Data sheets
ISBN:0521231515
Keywords: Electronics.
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Call number:SPRINGER-2001-9783642564703:ONLINE Show nearby items on shelf
Title:Scientific Computing in Electrical Engineering Proceedings of the 3rd International Workshop, August 20–23, 2000, Warnemünde, Germany
Author(s):
Date:2001
Size:1 online resource (428 p.)
Note:10.1007/978-3-642-56470-3
Contents:Multi-Time PDEs for Dynamical System Analysis -- Edge Finite Elements of Variable Order for Maxwell’s Equations -- A Common-Mode Skeleton Model for EMC Simulations -- Computational Electromagnetism in Transformer and Switchgear
Design: Current Trends -- Numerical Algorithms for the Calculation of Magneto-Quasistatic Fields Using the Finite Integration Technique -- Parallel Maxwell Solvers -- Simulation of Electric Field Strength and Force Density on
Contaminated H-V Insulators -- Commercial EM Codes Suitable for Modeling of Microwave Heating — a Comparative Review -- On the Representation of Differential Forms by Potentials in Dimension 3 -- Hysteresis Models for Transient
Simulation -- Calculation of Frequency Domain Parameters in Lossfree and Lossy Structures Using the FI-Technique and a Modal Approach -- Statistical Simulation Approach to Inverse Geoelectric Problem -- A Scalar BEM for Time Harmonic
Eddy Current Problems with Impedance Boundary Conditions -- Appraisal of Asymptotics in Electromagnetic Field Calculations -- Shape Optimization of Homogeneous Electromagnets -- Field Calculations of High Accuracy by BEM Using
Extrapolation -- Calculation of Electromagnetic Eigenmodes in Complex Structures Using Coupled S-Parameter Calculation -- Multigrid Solvers for Poisson’s Equation in Computational Electromagnetics -- Model Design Criteria for
Integrated Circuits to Have a Unique Solution and Good Numerical Properties -- CHORAL — A One Step Method as Numerical Low Pass Filter in Electrical Network Analysis -- Periodic Steady-State Analysis of Free-running Oscillators --
Efficient Analysis of Oscillatory Circuits -- Robust Limit Cycle Calculations of Oscillators -- Multirate ROW Methods of Mixed Type for Circuit Simulation -- Neural Networks for Device and Circuit Modelling -- Sub-micrometer Bipolar
Transistor Modeling Using Neural Networks -- Numerical Simulation for Lossy Microwave Transmission Lines Including PML -- Electromagnetic Simulation of Real-Life Circuits: A Mobile Phone Power Amplifier Module and an FM Radio Tuner PCB
-- Error Indicator and Adaptive Meshing for Hierarchical FEM-Simulation of Waveguides -- A Parallelizable GMRES-type Method for p-cyclic Matrices, with Applications in Circuit Simulation -- Parallel Algorithms for Solving Linear
Equations in VLSI Circuit Simulation -- Investigation of Time Step Control for the Mixed-Level Device/Circuit Simulation of SiGe Bipolar Microwave Power Amplifiers -- Symmetrical Retarded Current Source Model for Transient Field
Coupling on Interconnects -- Iterative Solution of Systems of Linear Equations in Microwave Circuits Using a Block Quasi-Minimal Residual Algorithm -- A Survey on Parameter Extraction Techniques for Coupling Electromagnetic Devices to
Electric Circuits -- A Mathematical Framework for the Finite Element Modelling of Electromechanical Problems -- Dual Magnetodynamic Finite Element Formulations with Natural Definitions of Global Quantities for Electric Circuit Coupling
-- Induction Heating of Thin Slabs in Nonmagnetic Media -- Krylov Subspace Methods for Harmonic Balanced Finite Element Methods -- The “Modified Trapezoidal Rule” (?-Method) for the Integration of DAEs Modelling an Electro-Mechanical
Drive Including External Circuitry and Magnetic Field-Distribution -- Analysis of Coupled Electromagnetic and Thermal Fields in the Instationary Case -- On the Evaluation of Transients in Conducting Ferromagnetic Cores
ISBN:9783642564703
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Lecture Notes in Computational Science and Engineering: 18
Keywords: Engineering , Computers , Computer engineering , Computer mathematics , Numerical analysis , Computational intelligence , Electrical engineering , Engineering , Electrical Engineering , Theory of Computation , Computer Engineering , Computational Mathematics and Numerical Analysis , Numerical Analysis , Computational Intelligence
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Call number:SPRINGER-1990-9783642747519:ONLINE Show nearby items on shelf
Title:Physics of Quantum Electron Devices
Author(s):
Date:1990
Size:1 online resource (403 p.)
Note:10.1007/978-3-642-74751-9
Contents:1. Introduction -- 1.1 A Perspective on the Evolution of Quantum Semiconductor Devices -- 1.2 Outline of the Book -- References -- 2. The Nature of Molecular Beam Epitaxy and Consequences for Quantum Microstructures -- 2.1 Dimensional
Confinement and Device Concepts -- 2.2 Molecular Beam Epitaxy -- 2.3 The Surface Kinetic Processes and Computer Simulations of Growth -- 2.4 Quantum Wells: Growth and Photoluminescence -- 2.5 Concluding Remarks -- 2.6 Recent Advances
-- References -- 3. Nanolithography for Ultra-Small Structure Fabrication -- 3.1 Overview -- 3.2 Resolution Limits of Lithographic Processes -- 3.3 Pattern Transfer -- References -- 4. Theory of Resonant Tunnelling and Surface
Superlattices -- 4.1 Tunnelling Probabilities -- 4.2 Tunnelling Time -- 4.3 Pseudo-Device Calculations -- 4.4 Lateral Superlattices -- References -- 5. The Investigation of Single and Double Barrier (Resonant Tunnelling)
Heterostructures Using High Magnetic Fields -- 5.1 Background -- 5.2 LO Phonon Structure in the I(V) and C(V) Curves of Reverse-Biased Heterostructures -- 5.3 Magnetotunnelling from the 2D Electron Gas in Accumulated (InGa)As/InP
Structures Grown by MBE and MOCVD -- 5.4 Observation of Magnetoquantized Interface States by Electron Tunnelling in Single-Barrier n? (InGa)As/InP/n+ (InGa)As Heterostructures -- 5.5 Box Quantised States -- 5.6 Double Barrier Resonant
Tunnelling Devices -- References -- 6. Microwave and Millimeter-Wave Resonant-Tunnelling Devices -- 6.1 Speed of Response -- 6.2 Resonant-Tunnelling Oscillators -- 6.3 Self-Oscillating Mixers -- 6.4 Resistive Multipliers -- 6.5
Variable Absolute Negative Conductance -- 6.6 Persistent Photoconductivity and a Resonant-Tunnelling Transistor -- 6.7 A Look at Resonant-Tunnelling Theory -- 6.8 Concluding Remarks -- Note Added in Proof -- List of Symbols --
References -- 7. Resonant Tunnelling and Superlattice Devices: Physics and Circuits -- 7.1 Resonant Tunnelling Through Double Barriers and Superlattices -- 7.2 Application of Resonant Tunnelling: Transistors and Circuits -- References
-- 8. Resonant-Tunnelling Hot Electron Transistors (RHET) -- 8.1 RHET Operation -- 8.2 RHET Technology Using GaAs/AlGaAs Heterostructures -- 8.3 InGaAs-Based Material Evaluation -- 8.4 RHET Technology Using InGaAs-Based Materials --
8.5 Theoretical Analyses of RHET Performance -- 8.6 Summary -- References -- 9. Ballistic Electron Transport in Hot Electron Transistors -- 9.1 Ballistic Transport -- 9.2 Hot Electron Transistors -- 9.3 Hot Electron Injectors -- 9.4
Energy Spectroscopy -- 9.5 Electron Coherent Effects in the THETA Device -- 9.6 Transfer to the L Satellite Valleys -- 9.7 The THETA as a Practical Device -- References -- 10. Quantum Interference Devices -- 10.1 Background -- 10.2
Two-Port Quantum Devices -- 10.3 Multiport Quantum Devices -- Appendix: Aharonov — Bohm Phase-shift in an Electric or Magnetic Field -- References -- Additional References -- 11. Carrier Confinement to One and Zero Degrees of Freedom
-- 11.1 Experimental Methods -- 11.2 Discussion of Experimental Results -- 11.3 Conclusions -- References -- 12. Quantum Effects in Quasi-One-Dimensional MOSFETs -- 12.1 Background -- 12.2 MOSFET Length Scales -- 12.3 Special MOSFET
Geometries -- 12.4 Strictly 1D Transport -- 12.5 Multichannel Transport (Particle in a Box?) -- 12.6 Averaged Quantum Diffusion -- 12.7 Mesoscopic Quantum Diffusion (Universal Conductance Fluctuations) -- 12.8 Effect of One Scatterer
-- 12.9 Conclusion -- References
ISBN:9783642747519
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Electronics and Photonics: 28
Keywords: Materials science , Electronics , Microelectronics , Optical materials , Electronic materials , Materials Science , Optical and Electronic Materials , Electronics and Microelectronics, Instrumentation
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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-1986-9783642829796:ONLINE Show nearby items on shelf
Title:High-Speed Electronics Basic Physical Phenomena and Device Principles
Author(s):
Date:1986
Size:1 online resource (234 p.)
Note:10.1007/978-3-642-82979-6
Contents:I Hot-Electron Dynamics -- Modelling of High Electron Velocity Effects for Devices -- Ballistic Transport and Electron Spectroscopy in Tunnelling Hot Electron Transfer Amplifiers (THETA) -- Hot Electron Transistors -- Tunneling
Through III—V Low-Barrier Heterostructures -- Velocity Overshoot and Suppression of Diffusivity and Microwave Noise in Short n+-n-n+ Structures of GaAs -- Mobility Overshoot of Hot Electrons -- Monte-Carlo Simulation of the Effects
Induced by Real-Space Transfer in a HEMT -- Application of the Integral Boltzmann Equation to the Hot Electron Problem in an Inhomogeneous Submicron Structure -- Three Picosecond Oscillations in Avalanche Electron- Hole Plasma Induced
by Energy Relaxation Phenomena -- II Heterostructures, Superlattices and Quantum Wells -- Resonant Tunneling Transistors, Tunneling Superlattice Devices and New Quantum Well Avalanche Photodiodes -- Novel Real-Space Transfer Devices --
Transport Characteristics in Heterostructure Devices -- Technical Issues of High-Speed Heterostructure Devices -- Hot-Carrier-Excited Two-Dimensional Plasmon in Selectively Doped AIGaAs/GaAs Heterointerface Under High Electric Field
Application -- Optical High-Field-Transport Experiments in GaAs Quantum Wells -- Optical Time-of-Flight Investigation in Ambipolar Carrier Transport in Specially Designed GaAs/GaA1As Quantum Well Structures -- An Ultra-Fast Optical
Modulator: The Double-Well GaAs/GaAlAs Superlattice (DWSL) -- High-Velocity Vertical Transport in Graded Gap GaAs/GaA1As Superlattices -- Modelling of Mobility Degradation in Submicron MOSFETs After Electrical Stressing -- Negative
Differential Mobility and Drift Velocity Overshoot in a Single Quantum Well of AIGaAs/GaAs/AIGaAs Heterostructure -- Monte Carlo Study of Hot Electron Transport in GaAs-AIGaAs Quantum Wells -- III High-Speed Electronic Devices --
High-Speed Bulk Unipolar Structures in Silicon -- Silicon Bulk Barrier Diodes Fabricated by LPVPE -- Impact Ionization Breakdown of GaAs Current Limiters -- The New High Speed Devices: The Barrier Transistor and the TEG-Base Transistor
-- Monte Carlo Investigation of the High Electron Mobility Transistor -- Excess Gate Current Due to Hot Electrons in GaAs-Gate FETs -- Potential Barriers in Doped GaAs by OM-VPE -- Low Noise High Electron Mobility Transistors Grown By
MOVPE -- Emitter-Coupled Logic Ring Oscillators Implemented with GaAs/GaAlAs Single and Double Heterojunction Bipolar Transistors: A Comparison -- Self-Aligned Technology Using Refractory Ohmic Contacts for GaAs/GaAlAs Heterojunction
Bipolar Transistors -- Novel Cryoelectronic Device Concept Based on Magnetically Controlled Current Flow in Bulk Semiconductors -- InGaAlAs/InGaAs/InGaAlAs NnpnN Double Heterojunction Bipolar Transistors: Experimental Characteristics
and Monte-Carlo Interpretation -- Lattice-Strained Double Heterojunction InGaAs/GaAs Bipolar Transistors -- Cryogenic GaAs Integrated Circuits Using a Lightly Doped GaAs FET Structure -- GaAs-on-Insulator Structure Prepared by
Heteroepitaxy of Fluorides and GaAs -- IV High-Speed Opto-Electronics -- Optoelectronic Generation of Very High Speed Electromagnetic Transients -- Picosecond Electro-Optic Sampling -- High-Speed Integrated Circuit Testing by
Time-Resolved Photoemission -- Overview of Optical Switching and Bistability -- Monte Carlo Investigation of High-Speed GaAs Schottky Barrier Photodiode -- A High-Speed Au/In0.53Ga0.47As/InP Schottky Barrier Photodiode for 1. 3–1. 65µm
Photodetection -- High Sensitivity Picosecond Optical Pulse Detection by Semiconductor Laser Amplifiers Via Cross-Correlation -- GaAs Photoconductors to Characterize Picosecond Response in GaAs Integrated Devices and Circuits --
Characterization of On-Chip Polycrystalline Silicon Photoconductors -- Index of Contributors
ISBN:9783642829796
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:Springer Series in Electronics and Photonics: 22
Keywords: Materials science , Electronics , Microelectronics , Optical materials , Electronic materials , Materials Science , Optical and Electronic Materials , Electronics and Microelectronics, Instrumentation
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Call number:SPRINGER-1983-9781461336617:ONLINE Show nearby items on shelf
Title:Integrated Optics Physics and Applications
Author(s):
Date:1983
Size:1 online resource (420 p.)
Note:10.1007/978-1-4613-3661-7
Contents:Lectures and Seminars -- Integrated Optics Devices for Optical Communications -- Planar Optical Waveguide and Coupler Analysis -- Fabrication of Surface Optical Waveguides -- Single Mode Optical Fiber Technology: I. Propagation
Properties and Material Dispersion in Single-Mode Fibers -- Single Mode Optical Fiber Technology: II. Silica-Based Single-Mode Fiber Technology, Loss and Polarization Properties -- Single Mode Optical Fiber Technology: III.
Double-Crucible Drawing Technology and Compound Glass Fibers -- Integrated Optical Receivers for Telecommunications: A Critical Discussion -- Principles and Performance of Access Couplers for Multimode Fibers and Devices for Wavelength
Division Multiplexing -- Planar Tees and Star Couplers -- Planar Tees and Couplers for Multimode Devices -- Integrated Optics Switches and Modulators -- Planar Electrooptic and Acoustooptic Bragg-Deflectors -- Ultimate Limits in
Integrated Optics -- Optical Bistability and the Optical Transistor Using Semiconductors -- Integrated Optical Signal Processors: Design and Implementation Criteria -- Geodesic Optics: Overview and Perspectives -- Integrated Optical
Spectrum Analysers Using Geodesic Lenses on Lithium Niobate -- Development of Integrated Optical Circuits in the Department of Electronics and Electrical Engineering, The University of Glasgow -- Integrated Optics in China -- Coupling
Techniques: Prism-, Grating- and Endfire-coupling -- The Finite Element Method in the Analysis of Optical Waveguides -- A Numerical Analysis of Grating Structures -- Thin Film Control and Microfabrication Technique -- Light Intensity
Noise in Gain- and Index Guide Semiconductor Heterojunction Lasers -- Contributed Papers -- Optical Single Sideband Homodyne Phase Detection -- High-Frequency Oscillators and Bistable Multivibrators Using Integrated Interferometers --
Assessment of Ion Ranges of Various Energies in LiNb03 and LiTaO3 by Waveguide Measurements -- All-Fiber Single-Mode Devices for Passive Functions -- Heterodyne Systems for Optical Fibre Communications and a Proposed Electro-optic
Frequency Shifter -- An Optical Serrodyne Frequency Translator -- Behaviour of Photopolymer Materials -- The Dynamical Behaviour of a Single-Mode Optical Fiber Sensor -- Subject Inde
ISBN:9781461336617
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Series:NATO Advanced Studies Institutes Series : 91
Keywords: Physics , Optics , Optoelectronics , Plasmons (Physics) , Physics , Optics, Optoelectronics, Plasmonics and Optical Devices
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Call number:SPRINGER-1978-9783642812415:ONLINE Show nearby items on shelf
Title:Advanced Electronic Circuits
Author(s): Ulrich Tietze
Date:1978
Size:1 online resource (510 p.)
Note:10.1007/978-3-642-81241-5
Contents:1 Linear and non-linear operational circuitry -- 1.1 Summing amplifier -- 1.2 Subtracting circuits -- 1.3 Bipolar-coefficient circuit -- 1.4 Integrators -- 1.5 Differentiators -- 1.6 Solution of differential equations -- 1.7 Function
networks -- 1.8 Analog multipliers -- 1.9 Transformation of coordinates -- 2 Controlled sources and impedance converters -- 2.1 Voltage-controlled voltage sources -- 2.2 Current-controlled voltage sources -- 2.3 Voltage-controlled
current sources -- 2.4 Current-controlled current sources -- 2.5 NIC (negative impedance converter) -- 2.6 Gyrator -- 2.7 Circulator -- 3 Active filters -- 3.1 Basic theory of lowpass filters -- 3.2 Lowpass/highpass transformation --
3.3 Realization of first order lowpass and highpass filters -- 3.4 Realization of second order lowpass and highpass filters -- 3.5 Realization of lowpass and highpass filters of higher orders -- 3.6 Lowpass/bandpass transformation --
3.7 Realization of second order bandpass filters -- 3.8 Lowpass/band-rejection filter transformation -- 3.9 Realization of second order rejection filters -- 3.10 Allpass filters -- 3.11 Adjustable universal filter -- 4 Broadband
amplifiers -- 4.1 Frequency dependence of the current gain -- 4.2 Influence of transistor and stray capacitances -- 4.3 Cascode amplifier -- 4.4 Differential amplifier as a broadband amplifier -- 4.5 Symmetrical broadband amplifiers --
4.6 Broadband voltage follower -- 4.7 Broadband operational amplifiers -- 5 Power amplifiers -- 5.1 Emitter follower as a power amplifier -- 5.2 Complementary emitter followers -- 5.3 Electronic current limiter -- 5.4 Complementary
emitter followers using Darlington circuits -- 5.5 Rating a power output stage -- 5.6 Driver circuits with voltage gain -- 5.7 Boosting the output current of integrated operational amplifiers -- 6 Power supplies -- 6.1 Properties of
mains transformers -- 6.2 Transformer rectifiers -- 6.3 Series regulation -- 6.4 Generation of the reference voltage -- 6.5 Switching power supplies -- 7 Analog switches and comparators -- 7.1 Principle -- 7.2 Electronic switches --
7.3 Analog switch using amplifiers -- 7.4 Sample-and-hold circuits -- 7.5 Analog comparators -- 7.6 Schmitt trigger -- 8 Signal generators -- 8.1 LC oscillators -- 8.2 Quartz oscillators -- 8.3 RC sinewave oscillators -- 8.4 Function
generators -- 8.5 Multivibrators -- 9 Combinatorial logic circuitry -- 9.1 Coding circuits -- 9.2 Multiplexer and demultiplexer -- 9.3 Unclocked shift register -- 9.4 Digital comparators -- 9.5 Adders -- 9.6 Multipliers -- 9.7 Digital
function networks -- 10 Sequential logic circuitry -- 10.1 Straight binary counters -- 10.2 BCD counters in 8421 code -- 10.3 Presettable counters -- 10.4 Shift registers -- 10.5 Generation of pseudo-random sequences -- 10.6 Processing
of asynchronous signals -- 10.7 Systematic design of sequential circuits -- 11 Microprocessors -- 11.1 Basic structure of a microcomputer -- 11.2 Operation of a microprocessor -- 11.3 Instruction set -- 11.4 Development aids -- 11.5
Microcomputer hardware -- 11.6 Input/output circuits -- 11.7 Minimum systems -- 12 Digital filters -- 12.1 Sampling theorem -- 12.2 Digital transfer function -- 12.3 Bilinear transformation -- 12.4 Construction of digital filters -- 13
Data transmission and display -- 13.1 Transmission lines -- 13.2 Error detection and correction -- 13.3 Static digital displays -- 13.4 Multiplex displays -- 14 D/A and A/D converters -- 14.1 Design principles of D/A converters -- 14.2
Design of D/A converters using electronic switches -- 14.3 D/A converters for special applications -- 14.4 Basic principles of A/D conversion -- 14.5 Accuracy of A/D converters -- 14.6 Design of A/D converters -- 15 Measurement
circuits -- 15.1 Measurement of voltage -- 15.2 Measurement of current -- 15.3 A.C./D.C. converters -- 16 Electronic controllers -- 16.1 Underlying principles -- 16.2 Controller types -- 16.3 Control of non-linear systems -- 16.4
Phase-locked loop -- 17 Appendix: Definitions and nomenclature
ISBN:9783642812415
Series:eBooks
Series:SpringerLink (Online service)
Series:Springer eBooks
Keywords: Physics , Electronic circuits , Electronics , Microelectronics , Physics , Electronic Circuits and Devices , Circuits and Systems , Electronics and Microelectronics, Instrumentation
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Call number:QC612.S4G863 Show nearby items on shelf
Title:Semiconductor devices and applications.
Author(s): Richard Anton Greiner 1931-
Date:1961
Publisher:McGraw-Hill: New York
Size:493 pgs.
Contents:1. The Structure of Atoms and Solids, 2. Electrical Conduction in Solids, 3. Particle Physics, 4. Practical Semiconductors, 5. Semiconductor Preparation, Properties, and Measurements, 6. Contacts, 7. Juntions, 8. Diodes, 9. Transitors: The Basic Mechanism, 10. Practical Transistor Characteristics, 11. Biasing and Stabilization, 12. Trasistor Parameters, 13. Small-Siganl Amplifiers, 14. Power Amplifiers, 15. Direct-Current Amplifiers, 16. Power Supplies, 17. Sinusoidal Oscillators, 18. High-Frequency and Switching Transitors, 19. Switching-Mode Circuits, 20 Regenerative Switching-Mode Circuits
Appendices: A. Units and Special Functions, 2. List of Symbols, 3. Matrixes, 4. Parameter Interrelationships, 5. Gain Formulas, 6. Device Characteristics
Series:McGraw-Hill electrical and electronic engineering series v. 1
Keywords: Semiconductors.
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