Citation: |
Zhou Yu, Sun Jiandong, Sun Yunfei, Zhang Zhipeng, Lin Wenkui, Liu Hongxin, Zeng Chunhong, Lu Min, Cai Yong, Wu Dongmin, Lou Shitao, Qin Hua, Zhang Baoshun. Characterization of a room temperature terahertz detector based on a GaN/AlGaN HEMT[J]. Journal of Semiconductors, 2011, 32(6): 064005. doi: 10.1088/1674-4926/32/6/064005
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Zhou Y, Sun J and o N, Sun Y F, Zhang Z P, Lin W K, Liu H X, Zeng C H, Lu M, Cai Y, Wu D M, Lou S T, Qin H, Zhang B S. Characterization of a room temperature terahertz detector based on a GaN/AlGaN HEMT[J]. J. Semicond., 2011, 32(6): 064005. doi: 10.1088/1674-4926/32/6/064005.
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Characterization of a room temperature terahertz detector based on a GaN/AlGaN HEMT
DOI: 10.1088/1674-4926/32/6/064005
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Abstract
We report on the characterization of a room temperature terahertz detector based on a GaN/AlGaN high electron mobility transistor integrated with three patch antennas. Experimental results prove that both horizontal and perpendicular electric fields are induced in the electron channel. A photocurrent is generated when the electron channel is strongly modulated by the gate voltage. Despite the large channel length and gate-source/drain distance, significant horizontal and perpendicular fields are achieved. The device is well described by the self-mixing of terahertz fields in the electron channel. The noise-equivalent power and responsivity are estimated to be 100 √Hz and 3 mA/W at 292 K, respectively. No decrease in responsivity is observed up to a modulation frequency of 5 kHz. The detector performance can be further improved by engineering the source-gate-drain geometry to enhance the nonlinearity.-
Keywords:
- terahertz detector
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References
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