Nonlinear magneto-optic Kerr effect in semiconductor microcavities
Résumé
The photo-induced modifications of the strong magneto-optic Kerr effect have been studied in a semimagnetic semiconductor microcavity operated in the strong coupling regime. These are traced to the saturation and many body interaction blue shift of the exciton transition frequency, which result in a photo-induced reduction of the effective exciton-cavity coupling. Its impact is most striking in the case of initially tuned microcavity, where a modification of the exciton-cavity coupling results in photo-induced polarization rotations of about 30 degrees for laser fluences as low as 1 μJ/cm2 and magnetic field intensities of 0.2 T.