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2008
Journal Article
Titel
THz detection by field-effect transistors in magnetic fields: Shallow water vs. deep water mechanism of electron plasma instability
Alternative
Terahertz Detektion mittels Feldeffekt-Transistoren in magnetischen Feldern: Seichtwasser- versus Tiefwasser-Mechanismen der Elektronplasma-Instabilität
Abstract
Detection of THz radiation by a high electron mobility (HEMT) GaAs/GaAlAs transistor was investigated at 4 K as a function of the magnetic field B. The detection signal (a source - drain photovoltage appearing as a response to THz radiation) was found to be periodic in B(exp -1), i.e., it showed Shubnikow - de Haas oscillations. A Fourier transform of the signal showed a large amplitude component independent of the gate polarization, and a small amplitude component dependent on it. This shows that a HEMT response to the radiation cannot be described either by a plasma instability in gated ("shallow water") or in ungated ("deep water") parts of the channel, but rather by a response of the channel as a whole. This is in a good correspondence with recent experimental evidence of antenna effects in detection of radiation by HEMTs and advanced theoretical models of instability of coupled gated - ungated plasma in HEMTs.
Author(s)