Title :
Refine treatment of plasmon mediated photoconductivity resonances in a grid-gated double-quantum-well field-effect transistor
Author :
Popov, V.V. ; Teperik, T.V. ; Zayko, Yu.N. ; Allen, S.J. ; Horing, N. J M
Author_Institution :
Inst. of Radio Eng. & Electron., Russian Acad. of Sci., Saratov, Russia
Abstract :
Recent observations of THz photoconductivity in a double-quantum-well (DQW) field-effect transistor (FET) with a periodic metal-grid gate indicate that the presence of an asymmetric DQW is essential to produce a large photoresponse. The strongest THz photoresponse occurs when the upper QW (nearest to the gate) is fully depleted under metal portions of the grating gate, while the lower one remains connected, but with a laterally modulated electron density. The positions and strengths of the resonant peaks in the photoresponse are controlled by both the voltage applied to the gate and the period of the grating gate. In this paper, we exhibit a correlation between magnitudes of the plasmon absorption resonances and resonant changes in photoconductance of the DQW-FET channel.
Keywords :
field effect transistors; photoconductivity; phototransistors; plasmons; quantum well devices; resonance; semiconductor device models; DQW field-effect transistor; DQW-FET channel; QW laterally modulated electron density; THz photoconductivity; asymmetric DQW; grating gate period; grid-gated double-quantum-well FET; periodic metal-grid gate; photoconductance resonant changes; photoresponse resonant peaks; plasmon absorption resonances; plasmon mediated photoconductivity resonances; resonant peak position; resonant peak strength; Absorption; Electrons; FETs; Gratings; Photoconductivity; Physics; Plasmons; Resonance; Submillimeter wave technology; Voltage;
Conference_Titel :
Physics and Engineering of Microwaves, Millimeter, and Submillimeter Waves, 2004. MSMW 04. The Fifth International Kharkov Symposium on
Print_ISBN :
0-7803-8411-3
DOI :
10.1109/MSMW.2004.1345963
