Optical Engineering Basic Experiment Publication Time: 2011 Edition Introduction "Optical Engineering Basic Experiment" is based on the theoretical system of basic knowledge of optoelectronic instrument design. From the perspective of engineering application basic training, the main content is set according to the basic content of optical engineering disciplines, including optical technology. Basic experimental skills training in basic, photoelectric technology, optical test technology and precision instrument. It focuses on basic engineering practice training, with emphasis on training students 'ability to use basic equipment and tools, training students' ability to design experiments themselves, enabling students to design simple photoelectric test systems, and preliminary understanding of the connotation of optical engineering disciplines. "Optical Engineering Fundamentals" aims to provide a textbook for related personnel who conduct systematic experimental teaching from an engineering perspective. It can be used for teaching in colleges and universities majoring in optical engineering and precision instruments. Introductory training materials.
The first part of the basic experiments and training of optical engineering Chapter 1. Introduction to basic experiments of optical engineering 1.1 Introduction to the subject of optical engineering 1.2 Basic experiments of optical engineering 1.3 Basic training of basic experiments and scientific research Chapter 2 Optics Basic Experiments of Imaging Law 2.1 Overview 2.2 Overview of Experimental Principles 2.3 Basic Points of Using Optical Benches 2.4 Basic Experiments Experiment 1 Imaging Laws of Positive Lenses Experimental Experiments Imaging Laws of Two Negative Lenses Experiment Design and Lens Focal length measurement experiment Four combined light group design and imaging characteristics experiments Chapter 3 Basic experiments of physical optics 3.1 Overview 3.2 Basic knowledge and skills of optical engineering experiments 3.3 Error analysis in optical experiments 3.4 Reference experimental experiment 1 Yang Experiments involving fringe image receiving and processing technology 2. Mach-Zehde interference experiment 3. Sodium-yellow light dual-wavelength experiment using Berry-Perot interferometer 4. Four Fraunhofer diffraction and photoelectric receiving processing technology experiment 5. Diffraction grating experiment 6. Polarized light characteristics Research Experiment Seven Phase Detection of 1/4 Wave Plate Phase Delay Angle Chapter 4 Basic Training of Visual Optical Instrument Measurement 4.1 Overview 4.2 Knowledge of measuring instruments by optical instruments 4.3 Brief description of experimental principles 4.4 Basic experiments Part II Basic experiments and training of precision instruments Chapter 5 Basic training of precision instrument structures 5.1 Overview 5.2 Common transmission forms in instrument structure 5 .3 Common Supports and Connections in Instrument Structures 5.4 Common Parts and Devices in Instrument Structures 5.5 Understanding of Typical Instrument Structures 5.6 Basic Instrument Structure Training Experiments 1 Disassembly and Assembly Experiments of Alarm Mechanisms 2 Experimental Characteristics of Cylindrical Helical Springs Test experiment experiment three telescope installation and practical training Chapter 6. Sensor application basic experiment and training 6.1 Sensor technology overview 6.2 Sensor classification 6.3 Static calibration and static characteristics of the sensor 6.4 Dynamic characteristics of the sensor 6. 5 Reference experiment 1 Metal foil strain gauge experiment 2 Differential transformer experiment 3 Hall sensor experiment 4 Other sensors and test circuit introduction Experiment 5 Phase shifter experiment Chapter 7 Basic experiments of automatic control technology 7.1 Overview 7.2 Open-loop control and closed-loop control 7.3 Analysis and design of automatic control system 7.4 Basic experiment Experiment 2 Typical second-order system transient response and stability experiment 3 system calibration experiment 4 analog / digital, digital / analog conversion experiment 5 digital PID control experiment 6 electric oven closed loop control experiment 3 photoelectric basic experiment and application Chapter 8 Basic experiments of optoelectronic devices 8.1 Photoelectric detection devices and thermoelectric detection devices 8.2 Photoelectric effects and device characteristics 8.3 Basic characteristic parameters of photodetection devices 8.4 Photodetector parameter design calculation steps 8.5 Commonly used in photodetection Light source 8.6 Performance comparison and application selection of various photoelectric detection devices 8.7 Reference experiment Experiment 1 Photoresistor application experiment-dark light circuit experiment 2 Photodiode response time measurement experiment Three photocell application-light intensity meter experiment Four Optical Coupling Devices-Optical Interrupter Measurement of Motor Speed Chapter 9 Basics of Holographic Optics Experimental Techniques 9.1 Overview 9.2 Basic Knowledge and Skills of Holographic Optics Experiments 9.3 Reference Experiments 1 Holographic Grating Experiment 2 Coaxial Holography Lens experiment Fresnel hologram experiment of three-dimensional and three-dimensional objects Four or two-step rainbow hologram experiment Five Fourier spectrum and spectrum analysis Six Abbe-Porter experiments Seven optical convolution theorems Optical simulation experiments Eight laser speckle measurements Lateral micro-displacement experiments Nine grating method image subtraction experiments Ten optical image recognition experiments Eleven theta modulation method Space false color coding experiment Twelve liquid crystals Light valve for real-time subtraction and real-time differentiation of optical images Chapter 10. Comprehensive training of photoelectric detection system 10.1 Overview of photoelectric detection system 10.2 Comprehensive experiment of photoelectric detection system 1 Experiment of light-controlled automatic lighting emergency light production 2 Long-range infrared Alarm making experiment three digital display optical power meter making reference