基于AlGaN/GaN场效应晶体管的太赫兹焦平面成像传感器
[1] Tonnuchi M. Cutting-edge terahertz technology [J]. Nature Photonics, 2007, 1(2): 97-105.
[2] Shen Y C, Lo A T, Taday P F, et al. Detection and identification of explosives using terahertz pulsed spectroscopic imaging [J]. Applied Physics Letters, 2005, 86(24): 24116.
[3] Chen Q, Jiang Z, Xu G X, et al. Near-field terahertz imaging with a dynamic aperture [J]. Optics Letters, 2000, 25(15): 1122-1124.
[4] Zhong H, Xu J, Xie X, et al. Nondestructive defect identification with terahertz time-of-flight tomography [J]. IEEE Sensors Journal, 2005, 5(2): 203-208.
[5] Shi S C, Paine S, Yao Q J, et al. Terahertz and far-infrared windows opened at dome a in antarctica [J]. Nature Astronomy, 2016, 1(1): 0001.
[6] 申金娥, 荣健, 刘文鑫. 太赫兹技术在通信方面的研究进展[J]. 红外与激光工程, 2006, 35(3): 342-347.
Shen Jin′e, Rong Jian, Liu Wenxin. Progress of terahertz in communication technology [J]. Infrared and Laser Engineering, 2006, 35(3): 342-347. (in Chinese)
[7] Feiginov M, Sydlo C, Cojocari O, et al. Resonant tunnelling diode oscillators operating at frequencies above 1.1 THz [J]. Applied Physics Letters, 2011, 99(23): 233506.
[8] 陈镇, 谭智勇, 王长, 等. 基于THz QCL 和THz QWP 的 数字通信演示系统[J]. 红外与激光工程, 2013, 42(10): 2796-2799.
Chen Zhen, Tan Zhiyong, Wang Chang, et al. Digital communication link based on THz QCL and THz QWP [J]. Infrared and Laser Engineering, 2013, 42(10): 2796-2799. (in Chinese)
[9] Dyakonov M, Shur M. Detection, mixing, and frequency multiplication of terahertz radiation by two-dimensional electronic fluid[J]. IEEE Transactions on Electron Devices, 1996, 43(3): 380-387.
[10] Lu J Q, Shur M S, Hesler J L, et al. Terahertz detector utilizing two-dimensional electronic fluid[J]. IEEE Electron Device Letters, 1998, 19(10): 373-375.
[11] Knap W, Kachorovskii V, Deng Y, et al. Resonant detection of subterahertz radiation by plasma waves in a submicron field-effect transistor[J]. Appl Phys Lett, 2002, 80(18): 9346-9353.
[12] Sun J D, Sun Y F, Wu D M, et al. High-responsivity, low-noise, room-temperature, self-mixing terahertz detector realized using floating antennas on a GaN-based field-effect transistor[J]. Applied Physics Letters, 2012, 100(1): 013506.
[13] Sun J D, Qin H, Lewis R A, et al. The effect of symmetry on resonant and nonresonant photoresponses in a field-effect terahertz detector [J]. Applied Physics Letters, 2015, 106(3): 031119.
[14] Lisauskas A, Pfeiffer U, jefors E, et al. Rational design of high-responsivity detectors of terahertz radiation based on distributed self-mixing in silicon field-effect transistors [J]. Journal of Applied Physics, 2009, 105(11): 114511.
[15] 刘朝阳, 刘力源, 吴南健. 采用CMOS 太赫兹波探测器的成像系统 [J]. 红外与激光工程, 2017, 46(1): 0125001.
[16] Vicarelli L, Vitiello M S, Coquillat D, et al. Graphene field-effect transistors as room-temperature terahertz detectors [J]. Nature Material, 2012, 11(10): 865-871.
[17] Qin H, Sun J D, Liang S X, et al. Room-temperature, low-impedance and high-sensitivity terahertz direct detector based on bilayer graphene field-effect transistor [J]. Carbon, 2017, 116: 760-765.
[18] Al Hadi R, Sherry H, Grzyb J, et al. A 1 k-pixel video camera for 0.7-1.1 terahertz imaging applications in 65-nm CMOS[J]. IEEE Journal of Solid-State Circuits, 2012, 47(12): 2999-3012.
[19] Sun Jiandong. Field-Effect Self-Mixing Terahertz Detectors [M]. Berlin: Springer-Verlay, 2016.
罗木昌, 孙建东, 张志鹏, 李想, 申志辉, 王颖, 陈红兵, 董绪丰, 张金峰, 陈扬, 周建勇, 秦华. 基于AlGaN/GaN场效应晶体管的太赫兹焦平面成像传感器[J]. 红外与激光工程, 2018, 47(3): 0320001. Luo Muchang, Sun Jiandong, Zhang Zhipeng, Li Xiang, Shen Zhihui, Wang Ying, Chen Hongbing, Dong Xufeng, Zhang Jinfeng, Chen Yang, Zhou Jianyong, Qin Hua. Terahertz focal plane imaging array sensor based on AlGaN/GaN field effect transistors[J]. Infrared and Laser Engineering, 2018, 47(3): 0320001.