Suppression of optical absorption by electric-field-induced quantum interference in coupled potential wells

22 November 1993

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 71 (21) , 3573-3576
https://doi.org/10.1103/physrevlett.71.3573

Abstract

A new quantum interference phenomenon in optical absorption is reported. This effect manifests itself in a striking suppression of the absorption coefficient as a function of the electric field concomitant with a negligible Stark shift of the transition in suitably designed coupled-quantum-well semiconductors. This phenomenon, which does not arise from a reduced overlap of the final and initial states of the transition, is shown to be caused by quantum interference between two spatially separated transitions. The basic and general nature of this mechanism could be exploited in other artificially structured materials as well.

Keywords

This publication has 19 references indexed in Scilit:

The Spectroscopy of Quantum Dot Arrays
Physics Today, 1993
Resonant multiphoton electron emission from a quantum well
Applied Physics Letters, 1992
Giant, triply resonant, third-order nonlinear susceptibility $χ_{3 ω}^{(3)}$ in coupled quantum wells
Physical Review Letters, 1992
Enhancement of the index of refraction via quantum coherence
Physical Review Letters, 1991
Bandgap and Interface Engineering for Advanced Electronic and Photonic Devices
MRS Bulletin, 1991
Advances in molecular beam epitaxy (MBE)
Journal of Crystal Growth, 1991
Lasers without inversion: Interference of lifetime-broadened resonances
Physical Review Letters, 1989
Experimental Evidence of an Interference between Photodissociation Continua
Physical Review Letters, 1988
Quantum interference in two-photon absorption: Polarization and magnetic field effects in the (7s $)^{1}$ S←(5 $s^{2}$ $)^{1}$ S transition of atomic Sr
Physical Review A, 1986
Effects of Configuration Interaction on Intensities and Phase Shifts
Physical Review B, 1961