Title :
Carrier transport in an InGaAs(P)/InP all-optical switching structure
Author :
Knorr, C. ; Wilhelm, U. ; Ottenwlilder, D. ; Scholz, E. ; Hangleiter, A.
Author_Institution :
4. Phys. Inst., Stuttgart Univ., Germany
Abstract :
We presented a specially designed SCMQW structure, where hole transport is controlled by an additional large heterobarrier. This barrier gives access to steady state escape times by measuring the charge carrier induced field change in the MQW region. We get a minimum value for the hole extraction time over the barrier of several at 77 K. At a temperature of 200 K the measured time constants lie below the values, which our rate equation model and the semi-classical model predict, and show a stronger field dependence. This could be accounted for thermally assisted tunneling and contribution of light hole transport, which both reduce the effective barrier height and show a stronger field dependence. Further investigations of the transport times are currently in progress by changing the thickness of the InP barrier and the barrier height of the quaternary material
Keywords :
III-V semiconductors; electro-optical switches; gallium arsenide; gallium compounds; hole mobility; indium compounds; semiconductor device models; semiconductor quantum wells; 200 K; 77 K; InGaAsP-InP; InGaAsP-InP all-optical switching structure; InP barrier; MQW region; SCMQW structure; barrier height; carrier transport; charge carrier induced field change; effective barrier height; field dependence; hole extraction time; large heterobarrier; light hole transport; quaternary material; rate equation model; semi-classical model; steady state escape times; stronger field dependence; thermally assisted tunneling; transport times; Charge carriers; Charge measurement; Current measurement; Equations; Indium phosphide; Predictive models; Quantum well devices; Steady-state; Temperature dependence; Time measurement;
Conference_Titel :
Indium Phosphide and Related Materials, 1996. IPRM '96., Eighth International Conference on
Conference_Location :
Schwabisch-Gmund
Print_ISBN :
0-7803-3283-0
DOI :
10.1109/ICIPRM.1996.492029
