Terahertz Electromagnetic Wave Detection: Difference between revisions
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==Project Overview== | ==Project Overview== | ||
Terahertz (THz) waves are rather useful in communication (6G communication: 0.3~3 THz), astronomy (millimetre telescope: 0.22 THz) and solid state material characterisation. However, the generation and detection of THz wave so difficult that it is named as the "THz Gap". In this project, we aim to generate and detect a THz pulse with a traditional method (Electro-Optical Sampling) and VO2 detector. | |||
==Setup== | ==Setup== | ||
==Measurement== | ==Measurement== | ||
Revision as of 14:20, 13 February 2025
Members
Shizhuo Luo E1353445@u.nus.edu
Project Overview
Terahertz (THz) waves are rather useful in communication (6G communication: 0.3~3 THz), astronomy (millimetre telescope: 0.22 THz) and solid state material characterisation. However, the generation and detection of THz wave so difficult that it is named as the "THz Gap". In this project, we aim to generate and detect a THz pulse with a traditional method (Electro-Optical Sampling) and VO2 detector.
