Description

Atomfair WOS-628 Wave Optics Comprehensive Experiment System

 

1. Product Overview

Atomfair WOS-628 Wave Optics Comprehensive Experiment System is a dedicated supporting experimental equipment for courses such as “Engineering Optics” in optoelectronic majors. It covers core experimental content including interference, diffraction, and polarization, and some experiments are accompanied by Matlab simulation experiment programs to help deeply combine theory with practice.

2. Core Features

• • Comprehensive experimental content, covering core knowledge points of wave optics, adapting to the teaching needs of professional courses;

• • Combines theory and simulation, with Matlab simulation programs for some experiments to enrich teaching forms;

• • Designed closely to the curriculum system, with strong pertinence, helping students consolidate the professional foundation of wave optics.

3. Main Experimental Content

• • Young’s double-slit interference experiment (with Matlab simulation experiment program)

• • Mach-Zehnder interference experiment (with Matlab simulation experiment program)

• • Fresnel diffraction experiment (with Matlab simulation experiment program)

• • Fraunhofer diffraction experiment (with Matlab simulation experiment program)

• • Diffractive optical element design experiment (with Matlab simulation experiment program)

• • Malus’ Law verification experiment (with Matlab simulation experiment program)

• • Generation and verification of polarized light (with Matlab simulation experiment program)

4. Core Knowledge Points

• • Interference theory of light waves

• • Principles of Young’s double-slit interference and Mach-Zehnder interference

• • Scalar diffraction theory of light waves

• • Characteristics of Fresnel diffraction and Fraunhofer diffraction

• • Theories related to Malus’ Law and extinction ratio

• • Principles of generation and verification of polarized light

5. Specification Parameters (International Standard)

• • Experimental coverage: Compatible with core experimental types of wave optics such as interference, diffraction, and polarized light;

• • Simulation support: Some experiments are accompanied by Matlab simulation experiment programs, in line with teaching-level simulation standards;

• • Course adaptation: Precisely matches the experimental requirements of core courses in optoelectronic majors such as “Engineering Optics”;

• • Teaching adaptability: Experimental design conforms to the teaching logic of optoelectronic majors overseas, helping to implement knowledge points.

6. Customization Services

Configuration parameters related to experimental content and supporting simulation programs can be customized according to the curriculum settings and teaching priorities of different institutions.

If youe interested, have any questions, or have specific customization requirements, please feel free to contact us at inquiry@atomfair.com.