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Record-High Performance Trantenna based on Asymmetric Nano-Ring FET for Polarization-Independent Large-Scale/Real-Time THz Imaging
- Authors
- Jang, E-San; Ryu, M. W.; Patel, R.; Ahn, S. H.; Jeon, H. J.; Han, K. J.; Kim, K. R.
- Issue Date
- Jun-2019
- Publisher
- IEEE
- Citation
- 2019 SYMPOSIUM ON VLSI CIRCUITS, v.2019-June, pp T160 - T161
- Indexed
- SCOPUS
- Journal Title
- 2019 SYMPOSIUM ON VLSI CIRCUITS
- Volume
- 2019-June
- Start Page
- T160
- End Page
- T161
- Abstract
- We demonstrate a record-high performance monolithic trantenna (transistor-antenna) using 65-nm CMOS foundry in the field of a plasmonic terahertz (THz) detector, By applying ultimate structural asymmetry between source and drain on a ring FET with source diameter (d(S)) scaling from 30 to 0.38 mu m, we obtained 180 times more enhanced photoresponse (Delta u) in on-chip THz measurement. Through free-space THz imaging experiments, the conductive drain region of ring FET itself showed a frequency sensitivity with resonance frequency at 0.12 THz in 0.09 similar to 0.2 THz range and polarization-independent imaging results as an isotropic circular antenna. Highly scalable and feeding line-free monolithic trantenna enables a high-performance THz detector with responsivity of 8.8 kV/W and NEP of 3.36 pW/Hz(0.5) at the target frequency.
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Related Researcher
- Han, Ki Jin
- College of Engineering (Department of Electronics and Electrical Engineering)