Title :
Monte Carlo modeling of infrared multiple-quantum-well phototransistor
Author :
Ryzhii, V. ; Ershov, M.
Author_Institution :
Comput. Solid State Phys. Lab., Aizu Univ., Japan
Abstract :
Infrared multiple-quantum-well (MQW) phototransistor is proposed and considered theoretically. The MQW phototransistor utilizes intersubband optical absorption and exhibits giant photocurrent gain which is due to the thermionic injection of hot electrons across the emitter barrier and fast electron transit through the MQW base. We use Monte Carlo simulation to study the hot electron transport effect on performance of MQW phototransistor for different base widths and electron injection energies. Transition from near ballistic hot electron transport to diffusive transport decreases the responsivity but its value can be significant in this case as well
Keywords :
Monte Carlo methods; high field effects; hot carriers; infrared detectors; light absorption; phototransistors; semiconductor device models; semiconductor quantum wells; Monte Carlo modeling; base widths; diffusive transport; emitter barrier; fast electron transit; giant photocurrent gain; hot electrons; infrared multiple-quantum-well phototransistor; intersubband optical absorption; near ballistic hot electron transport; thermionic injection; Electron emission; Electron optics; Ionization; Monte Carlo methods; Optical scattering; Photoconductivity; Phototransistors; Quantum well devices; Secondary generated hot electron injection; Stimulated emission;
Conference_Titel :
Numerical Modeling of Processes and Devices for Integrated Circuits, 1994. NUPAD V., International Workshop on
Conference_Location :
Honolulu, HI
Print_ISBN :
0-7803-1867-6
DOI :
10.1109/NUPAD.1994.343489
