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We report on noise-induced spin ordering in a collective quasiparticle system: spinor stochastic resonance. Synergetic interplay of a polarization-modulated signal and a polarization noise allows us to switch coherently between the two metastable states of a microcavity-polariton spin bistable system. Spinor stochastic resonance is demonstrated in a zero-dimensional GaAs based microcavity. The resonance behaviors of both the spin amplification and the signal-to-noise ratio are experimentally evidenced as a function of the noise strength for different amplitude modulations. They are theoretically reproduced using a spinor Gross-Pitaevskii equation driven by a randomly polarized laser field.
Petr Motlicek, Juan Pablo Zuluaga Gomez, Amrutha Prasad
Aleksandra Radenovic, Georg Fantner, Vytautas Navikas, Barney Frederick Drake, Helena Miljkovic, Simon Finn Mayer, Sanjin Marion