发表于2024-11-22
光學及光電子學設備與技術(影印版) 〔印〕伽戈利(Amar K.Ganguly) pdf epub mobi txt 電子書 下載 2024
基本信息
書名:光學及光電子學設備與技術(影印版)
定價:68.00元
作者:〔印〕伽戈利(Amar K.Ganguly)
齣版社:科學齣版社
齣版日期:2011-05-01
ISBN:9787030307545
字數:
頁碼:
版次:1
裝幀:平裝
開本:16開
商品重量:0.522kg
編輯推薦
本書詳述瞭近年來先進的光學及光電子學設備及技術。適閤光電子學專業本科生作為教材使用,本書的主要特點有:每一章後都附有相應的參考題目關於光電子設備大量的習題對各種光電子設備詳細的論述深入淺齣,直觀的語言用法易於閱讀。
內容提要
光學及光電子學設備與技術一書詳述瞭近年來先進的光學及光電子學領域的技術設備。光學及光電子學設備與技術(影印版)對各種光電子設備做瞭深入淺齣的論述,附有大量的習題,語法直觀易於閱讀。光學及光電子學設備與技術(影印版)既可作為光電子學相關領域專傢的重要參考資料,又可作為當前光電子學教學中所需的實用教材,也可以作為研究人員的參考書,對當前光電子學課程教學能起到很好的補充作用。
目錄
Acknowledgement
Preface
1. Wave particleduality of light
1.1 introduction
1.2 particleproperties of wave
1.2.1 PhotmlectricEffect
1.2.2 Quantum Theory of Light
1.3 waveproperties of particle
1.3.1 UncertaintyPrinciple
1.4 experimental proof of wave particleduality
1.5 radiometry
1.5.1Luminescence
1.5.2 Radiation
1.5.3 JunctionPhoto-Effect
1.5.4 Optical SourceParameters
1.5.5 Optical Detector'sParameters
1.6 laws of radiation
1.7 radiometricfundamentals
1.7.1 Basic Radiometer
SolvedProblems
Unsolved Pmbiems
ReviewQuetions
Choose the CorrectAnswer
References
2. Geometricaloptics
2.1 Introduction
2.2 Optical pathformation principle
2.2.1 Fernat's Principle
2.3Image formation
2.4 Refractive index
2.5 Hygienprinciple of wavefront
2.6 Interference oflight
2.7 Laws of reflection
2.7.1 Laws ofReflection From Fermat's Principle
2.8 Laws ofrefraction
2.8.1 Laws of Refraction from Fermat'sPrinciple
2.9 Applications ofhuygen'sprinciple
2.9.1 Laws of Refraction using Huygen'sPrinciple
2.9.2 Total Internal Reflection
2.9.3Laws of Reflection using Huygen's PrincipaIe
SolvedProblems
Unsolved Problems
ReviewQuestions
Objecrive Questions
Choose the CorrectAnswer
References
3. Refraction and reflection byspherical surfaces
3.1 introduction
3.2 gaussianformulae for single surface
3.2.1 Derivation oftheGaussian Formula
3.3 newtonian formula
3.4 thinlenses
3.4.1 Lens Formula
3.4.2 LateralMagnification
3.4.3 Power of Lens
3.4.4 ImagesFormed by Lenses
3.5 aberration of lenses
3.5.1Chromatic Aberration
3.5.2 MonochromaticAberrations
3.5.3 Spherical Aberration
3.5.4Coma
3.5.5 Astigmatism
3.5.6 Curvature ofField
3.5.7 Distonion
3.6 sphericalmirrors
3.6.1 Mirror ForrnuIa
3.6.2 LateralMagnification
3.6.3 Power of SphencalMirror
3.6.4 Uses of Lenses
3.6.5 Uses ofMirrors
Solved Promems
UnsolvedProblems
Review Questions
ObjectiveQuesrions
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References
4. Opticalinstruments
4.1 Introduction
4.2 HumanEye
4.2.1 Defects of Vision
4.3Camera
4.3.1 Working Principle of a Camera
4.3.2Lens System of Camera
4.3.3 D:aphragm of aCamera
4.3.4 Shutter of a Camera
4.3.5 Stops andApenure
4.4 Microscope
4.4.1 CompoundMicroscope
4.4.2 Magnification of che CompoundMicrohcope
4.4.3 Microscope Objectives
4.4.4Eyepieces
4.4.5 Numerical Aperture
4.5Telescope
4.5.1 Astronomical Telescope
SolvedProbtems
Objecrive Questions
Chouse the CorrecrAnswer
Review Questions
References
5.Dispersion
5.1 Introduction
5.2Prism
5.3 Dispersion by a Prism
5.4Refractometers
5.4.1 GoniometricRelationship
5.4.2 InterferometricRelationship
5.4.3 Types of Refractomerers
5.4.4Jamin's Refractometer
5.4.5 Mach-ZehnderRefractometer
5.4.6 Rayltigh'sRefractorer
5.4.7 Pulfrich Refractometer
5.5gratings
5.6 monocromator
5.6.1 PrismMonochromator
5.6.2 Grating Mnnochromator
5.6.3Ebert-Fa'srlstie Grating Monochromator
5.7spectrometer
5.8 profile projector
5.9interferometer
5.9.1 MichelsonInterferometer
5.9.2 Fabry-PerotInterferometer
Solved Pmblcms
UnsolvedProhIerns
Review Qlteainns
ObjectiveeQustions
Choose the corrctanwser
Refewnces
6. Luminescencediodes
6.1 introduction
6.2electroluminescence
6.2.1 EIectroluminescentDevices
6.3 optoelectronic semiconductormaterial
6.3.1 Injection Luminescent Device
6.3.2Injection Efticiency
6.3.3 Injection Efficiency ofHeterojunction Structure
6.3.4 RebinationEfficiency
6.4 light emitting diode (LED)
6.4.1LED Construction
6.5 led structures
6.5.1 PlanarLED
6.5.2 Dome Shaped LED
6.5.3 HeterojunctionLED
6.5.4 Surface Emitting LED
6.5.5 EdgeEmitting LED
6.5.6 LED Chancteristics
6.5.7Intensity Distribution of Led
6.5.8 Temperature Dependenceof Output Power of LED
6.5.9 Spectral OutputCharacteristics of LED
6.6 modulation bandwidth ofLED
6.7 reliability of LED
6.8 advantages ofLED
6.9 uses of light emitting diodes
SolvedProblems
Unsohred Pmhiems
Reviewuestions
Objective Questions
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References
7. Laser
7.1introduction
7.2 mechanism of light wavegeneration
7.3 population inversion
7.4 opticalfeedback in laser
7.5 threshold condition andgain
7.6 gas laser
7.6.1 Helium NeonLaser
7.6.2 Carbon Dioxide Laser
7.7 solid statelaser
7.7.1 Ruby Laser
7.7.2 Nd:YAGLaser
7.8 liquid laser
7.9 semiconductorlaser
7.9.1 Semiconductor Laser Structure
7.9.2Buried Heterostructure Laser
7.9.3 Distributed FeedbackLaser
7.9.4 Quantum Well Lases
7.9.5 Mode Lockingin Laser
7.9.6 QSwitching in Laser
7.9.7 TunableSemiconductor Laser
7.10 properties of laserlight
7.11 advantages of laser over other opticalsources
Solved Problems
UnsolvedProblems
Rcrniew Questions
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References
8. Opticaldetectors
8.1 introduction
8.2 thermaldetectors
8.3 quantum detectors
8.3.1Photoelectric Effect
8.4 photoemissivecells
8.4.1 Photocell
8.4.2 Gas FilledPhotoemissive Tubes
8.4.3 PhotomultipIiers
8.5semiconductor photoelectric transducer
8.5.1 LightDependent Resistor(LDR)
8.6 photovoltaic cell
8.7light activated silicon controlled rectifier (lascr)
8.8photo-conductive detector
8.9 solar cell
8.9.1Heterostructured Solar Cell
8.9.2 Quasi MonocrystallineSilicon Solar Cell
8.10 p-n junctionphotodiode
8.10.1 Pin Photodiode
8.10.2 AvalanchePhotodiode
8.11 phototransistor
8.12 high-speedmetal-semiconductor-metal photo diode
SolvedProblem
Unsolved Problems
ReviewQuestions
Objecrive Questions
Choose the CorrectAnswer
Refemnces
9. Fiber optics
9.1introduction
9.2 optical fiber material
9.3fabrication of optical fiber
9.3.1 OpticalFibers
9.3.2 Optical Fiber Cables
9.4 opticalfiber as waveguide
9.4.1 Step Index Fiber
9.4.2Graded Index Fiber
9.5 principle of raypropagation
9.5.1 Meridional Ray
9.5.2 SkewRays
9.5.3 Acceptance Angle and NumericalAperture
9.6 electromagic wavepropagation
9.6.1 EIsctromagic Wave Propagation in StepIndex Fiber
9.6.2 EIecsrornagic Wave Propagation inGraM Index Fiber
9.7 single mode and multimodefiber
9.7.1 NomaIized Frequency
9.7.2 Cut offWavelength
9.7.3 Mode Volume
9.7.4 Mode FieldDiameter
9.7.5 Effective Refractive Index
9.8advantage of optical fiber
9.9 losses in opticalfiber
9.9.1 Absorption
9.9.2 Material AbsorptionLosses
9.9.3 Extrinsic Absorption Loss
9.9.4Intrinsic Absorption Loss
9.9.5 Absorption Los: 3ue toAtomic Defects in Basic Material (Glass)
9.9.6 ScatteringLosses
9.9.7 Rayleigh Scattering Loss
9.9.8 Miescattering loss
9.10 nonlinear scatteringlosses
9.10.1 Brillouin Scattering
9.10.2 RamanScattering
9.11 fiber bendlosses
Problems
ReviewQuestions
Objective Questions
Choose the CorrectAnswer
References
10. Optocoupler and fiber opticinstrumentation
10.1 introduction
10.2optocoupler
10.2.1 Main Features ofOptocoupler
10.2.2 Basic Components of OproeEecmnicCoupler
10.2.3 Fhotodetector
10.3 characteristicsof optoelectronic couplers
10.4 optoelectronicisolator
10.4.1 LED-Photodiode OptoelectronicIsolator
10.4.2 Isolation of LED-Photodiode OptmIectronicIsolator
10.4.3 LED-Phototransistor OptlwlectronicIsolator
10.5 speed of response of optoelectroniccoupler
10.6 applications of optoelectronicisolators
10.6.1 AC Line Voltage Monitor
10.6.2Fiber Optic Pressure Sensor
10.6.3 Fiber Optic FlowSensor
10.6.4 Optical Fiber DisplacementSensor
10.6.5 Optical Current Sensor
10.6.6 FiberOptic Displacement Sensor
10.6.7 ProfileProjector光學及光電子學設備與技術(影印版) 〔印〕伽戈利(Amar K.Ganguly) 下載 mobi epub pdf txt 電子書
光學及光電子學設備與技術(影印版) 〔印〕伽戈利(Amar K.Ganguly) pdf epub mobi txt 電子書 下載