Microwave Optics

F20微波光學

Item no.: F20

Introduction

Similar to light behavior, microwave, known as a style of electromagnetic wave, possess both volatile characteristic including wave propagation
as well as matter particles. Here three fundamental wave propagations, such as micro-diffraction, reflection as well as absorption, have been acknowledged. To effectively undergo the intended experiment, the wavelength 3cm of frequency 10.5GHz, far greater than 400~700nm

of visible light and 1.7cm of ultimate wavelength in sound wave, is selected. That not only features as a strong diffused manner to investigate the microstructure of substance, but the lower energy required also meets the demand of local experiment related to geometric and wave optics, acoustics, and electromagnetic communication.

Objectives
  1. Geometric optics reflection, refraction and standing wave.
  2. Interference diffraction, double-slit interference, Michelson interference, Fabry-Perot interference, Lloyd’s mirror and Bragg’s diffraction.
  3. Polarization Brewster’s angle, light polarized experiment.
  4. Bragg diffraction.
  5. Fiber optics
實驗項目:
  1. 駐波
  2. 反射
  3. 折射
  4. 偏振
  5. 布魯斯特角
  6. 雙狹縫干涉
  7. 麥克森干涉
實驗器材:
  1. 微波發射器x1
  2. 微波接收器x1
  3. 聚苯乙烯菱鏡模型x1
  4. 反射用金屬鋁板x2
  5. 壓克力半透板x2
  6. 鋁製偏極柵x2
  7. 平板固定架x2
  8. 可調角度雙鋁軌附米尺與角度尺x1
  9. 干涉與繞射用狹縫片及固定架x1
  10. 可調角度架, PE材質附透明指標圓盤
  11. 三用電錶x1
  12. 布拉格繞射實驗器 x1

 

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