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Optics of spin-noise-induced gyrotropy of asymmetric microcavity

The optical gyrotropy noise of a high-finesse semiconductor Bragg microcavity with an embedded quantum well (QW) is studied at different detunings of the photon mode and the QW exciton resonances. A strong suppression of the noise magnitude for the photon mode frequencies lying above exciton resonances is found. We show that such a critical behavior of the observed optical noise power is specific of asymmetric Fabry-Perot resonators. As follows from our analysis, at a certain level of intracavity loss, the reflectivity of the asymmetric resonator vanishes, while the polarimetric sensitivity to the gyrotropy changes dramatically when moving across the critical point. The results of model calculations are in a good agreement with our experimental data on the spin noise in a single-quantum-well microcavity and are confirmed also by the spectra of the photo-induced Kerr rotation in the pump-probe experiments.

preprint2014arXivOpen access
S. V. PoltavtsevI. I. RyzhovR. V. CherbuninA. V. MikhailovN. E. KoptevaG. G. KozlovK. V. KavokinV. S. Zapasskii
cond-mat.mes-hallphysics.optics
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Open access8 authors2 topics
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S. V. PoltavtsevI. I. RyzhovR. V. CherbuninA. V. MikhailovN. E. KoptevaG. G. KozlovK. V. KavokinV. S. Zapasskii

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