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Experimental measurement of microwave-induced electron spin-flip time

Authors
  • cy, hu
  • tan, ph
  • ossau, w
  • wojtowicz, t
  • karczewski, g
  • kossut, j
Publication Date
Jan 01, 2001
Source
Knowledge Repository of SEMI,CAS
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Abstract

The electron spin resonance (ESR) is optically detected by monitoring the microwave-induced changes in the circular polarization of the neutral exciton (X) and the negatively charged exciton (X-) emission in CdTe quantum wells with low density of excess electrons. We find that the circular polarization of the X and X- emission is a mapping of the spin polarization of excess electrons. By analyzing the ESR-induced decrease in the circular polarization degree of the X emission, we deduce the microwave-induced electron spin-flip time >0.1 mus, which is much longer than the recombination time of X and X-. This demonstrates that the optically detected ESR in type I quantum wells with low density of excess electrons does not obey the prerequisite for the conventional optically detected magnetic resonance. (C) 2001 American Institute of Physics.

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