Engineering optics book information

Book number: 06864a ISBN: 7-11-06864-5/O.165 Author: Yu Daoyin, Tianjin University, Editor's Note by Tan Hengying of Zhejiang University: 2- 14 Editor: Korean folio: 16 Words: 0000 Words Pricing: 45.0 Series: Textbook Binding of the Tenth Five-Year Plan for General Higher Education: Paperback Publication Date: 2065438+0 1-0/kloc. Preface to Geometrical Optics and Optical Design Chapter 1 Basic Laws 3 Calculation of Optical Path and Paraxial Optical System 7 Section 4 Spherical Optical Imaging System 9 Exercises 13 Chapter 2 Ideal Optical System 15 Section 1 Ideal Optical System and * * * Line Imaging Theory 15 Section 2 Basic Points and Base Surfaces of Ideal Optical System 1 7 Section III Object-image Relationship of Ideal Optical System Section IV Magnification of Ideal Optical System Section V Combination of Ideal Optical System Section VI Lens 33 Exercise 37 Chapter III Plane and Plane System Section I Plane Mirror Imaging Section II Parallel Plate 4 1 Section 3 Reflective Prism 43 Section 4 Refractive Prism and Optical Wedge 50 Section 5 Optical Materials 53 Exercise 54 Chapter 4 Beam Limitation in Optical System 57 Section 1 Aperture 57 Section 2 Aperture 60 in Photography System Section 3 Selection of Imaging Beam in Telescope System 62 Section 4 Beam Limitation and Analysis in Microscope System 65 Section 5 Depth of Field in Optical System 67 Exercise 73 Chapter 5 Photometry and Chromaticity. Scientific Basis 74 Section 1 Radiation and Light Quantity and Its Units 74 Section 2 Variation Law of Light Quantity in the Process of Light Propagation 77 Section 3 Image Illuminance of Imaging System 8 1 Section IV Color Classification and Appearance Characteristics 84 Section V Color Mixing and grassmann Color Mixing Law 85 Section VI Color Matching 86 Section VII Several Concepts in Chromatology 87 Section VIII Color Addition Principle and Light Source Color and Color of Tri-stimulus Value 90 Section IX CIE Standard Chromaticity System 9 1 Section X Uniform Color Space and Color Difference Formula 100 Exercise 1 Optical path calculation and aberration theory of Chapter 6 104 Overview of the first section 104 Optical path calculation of the second section 105 Spherical aberration of each point on the third section axis. +0 10 sine and coma in the fourth quarter 1 14 curvature and astigmatism in the fifth quarter 1 17 distortion in the sixth quarter 120 chromatic aberration in the seventh quarter 12 1. Chapter VII Typical Optical System/KOOC-0/30 Section 1 Eye and Its Optical System/KOOC-0/30 Section 2 Magnifier/KOOC-0/35 Section 3 Microscope System/KOOC-0/37 Section 4 Telescope System/KOOC-0/42 Section 5 Program Mirror/KOOC-0/44 Section 6 Photography System/KOOC 46 Section 7 Projection System 65438+ Section 8 Zoom Optical System 152 Section 9 Calculation of Total Optical Dimensions 8+073 Step Optical Fiber System Section 4 177 Gradient Refractive Index Optical Fiber System Section 5 183 Photoelectric Optical System Section 6 189 Exercise199. Two-stage resolution/KOOC-0/95 Bar chart in the third quarter/KOOC-0/96 Optical transfer function in the fourth quarter to evaluate imaging quality/KOOC-0/ 98 Section 5 Other Image Quality Evaluation Methods 200 Section 6 Aberration Tolerance of Optical System 203 Chapter 10 Optical Design 206 Section 1 PW-shaped Primary Aberration Coefficient 206 Section 2 Basic Aberration Parameters of Thin Lens System 208 Section 3 Relationship between Basic Aberration Parameters and Structural Parameters of Double-sided Bonding Thin and Transparent Lens Group 2 165448 Thin Lens, The relationship between W∞ and C 1 and structural parameters 2 15 Section 5 Solving initial structural parameters by PW method Example 2 1 6 Section 6 Optimal Design of Optical System Example 224 Improved Wynee 40× Flat-field Microscope Objective Example 228 Section 8 Optimized Design of He Ne Laser Beam Focusing Objective Example 23 Section 9 Optimized Design of Laser Scanning Objective Example 24 Section 2 Section 10: Using Global Optimization Method Example 252 Exercise 256 Reference Answer 257 Previous Main Reference 260 Next Chapter/ Kloc-0/ 1 Electromagnetic Theoretical Basis of Physical Optics 26 1 Section 1: Electromagnetic Properties of Light 26 1 Section 2: Reflection of Light in Dielectric and Refraction at Interface 269 Section 3: Reflection and Transmission of Light on Metal Surface 28 1 Section 4: Absorption of Light, Dispersion and Scattering 284 Section 5 Superposition of Light Waves 290 Section 6 Fourier Analysis of Light Waves 298 Exercise 303 Chapter 12 Interference of Light and Interference System 306 Section 1 Conditions of Light Wave Interference 306 Section 2 Young's Interference Experiment 307 Section 3 Visibility of Interference Fringe 3 10 Section 4 Two-beam Interference of Flat Plate 3 13 Section 5 Typical Two-beam Interference System and Its Application 3/ kloc-0/ 8 Section 6 Multi-beam Interference of Parallel Plates and Its Application 334 Chapter 13 Diffraction of Light 338 Section 1 Scalar Diffraction Theory of Light Waves 338 Section 2 Fraunhofer Diffraction of Typical Aperture 343 Section 3 Fraunhofer Diffraction and Fourier Transform 349 Section 4 Diffraction and Resolution of Optical Imaging System 353 Section 5 Multi-slit Fraunhofer Diffraction 356 Section 6 Diffraction Grating 358 Section 7 Binary Optical Element 365 Section 8 Fresnel Diffraction 368 Exercise 3 Chapter 14 Fourier Optics 380 Section 1 Complex Amplitude Distribution and Spatial Frequency 380 Section 2 Fourier Transform Properties and Imaging Properties of Lens 382 Section 3 Coherent Imaging System Analysis and Coherent Transfer Function 386 Section 4 Incoherent Imaging System Analysis and Optical Transfer Function 3965 438+0 Section 5 Abbe Imaging Theory and Porter Experiment 396 Section 6 Optical Information Processing 400 Section 7 Holography 408 Exercise 4/ Kloc-0/7 Chapter XV Polarization of Light and Optical Basis of Crystals 420 Overview of Polarized Light in Section I 420 Propagation of Light in Crystals in Section II 422 Geometric Representation of Optical Properties of Crystals in Section III 427 Refraction and Reflection of Light Waves on Crystal Surface in Section IV 433 Matrix Representation of Polarization of Crystal Polarizing Devices 436 in Section VI 440 Transformation and Measurement of Polarized Light in Section VII 444 Interference of Polarized Light in Section VIII 447 Magneto-optical, Electro-optic and Acousto-optic Effects 454 Section 10 Liquid Crystal 468 Exercise 473 Chapter 16 Guided Wave Optics Foundation 477 Section 1 Propagation of Light in Plane Waveguide 477 Section 2 Propagation of Light in Optical Fiber 484 Section 3 Application of Guided Wave Optics 490 Exercise 493 Chapter 17 Photonics Foundation 494 Section 1 Quantum Properties of Light 494 Section 2 Radiation Mode of Optical Resonator 496 Section 3 Photon Characteristics 499 Photon Flow 50 1 Section 5 505 of Quantum State Light Section 6 Application Example 509 Exercise 51/next appendix 5 12 Next exercise reference answer 52 1 next main reference 526