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Tamm-cavity terahertz detector.

Xue-Cou TuYichen ZhangShuyu ZhouWenjing TangXu YanYunjie RuiWohu WangBingnan YanChen ZhangZiyao YeHongkai ShiRunfeng SuChao WanDaxing DongRuiying XuQing-Yuan ZhaoLa-Bao ZhangXiao-Qing JiaHua-Bing WangLin KangJian ChenPei-Heng Wu
Published in: Nature communications (2024)
Efficiently fabricating a cavity that can achieve strong interactions between terahertz waves and matter would allow researchers to exploit the intrinsic properties due to the long wavelength in the terahertz waveband. Here we show a terahertz detector embedded in a Tamm cavity with a record Q value of 1017 and a bandwidth of only 469 MHz for direct detection. The Tamm-cavity detector is formed by embedding a substrate with an Nb 5 N 6 microbolometer detector between an Si/air distributed Bragg reflector (DBR) and a metal reflector. The resonant frequency can be controlled by adjusting the thickness of the substrate layer. The detector and DBR are fabricated separately, and a large pixel-array detector can be realized by a very simple assembly process. This versatile cavity structure can be used as a platform for preparing high-performance terahertz devices and opening up the study of the strong interactions between terahertz waves and matter.
Keyphrases
  • image quality
  • high throughput
  • computed tomography
  • structural basis
  • amino acid
  • quantum dots