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Particle correlations and evidence for dark state condensation in a cold dipolar exciton fluid

Author

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  • Yehiel Shilo

    (Racah Institute of Physics, The Hebrew University of Jerusalem)

  • Kobi Cohen

    (Racah Institute of Physics, The Hebrew University of Jerusalem)

  • Boris Laikhtman

    (Racah Institute of Physics, The Hebrew University of Jerusalem)

  • Ken West

    (Princeton University, Princeton)

  • Loren Pfeiffer

    (Princeton University, Princeton)

  • Ronen Rapaport

    (Racah Institute of Physics, The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem)

Abstract

Dipolar excitons are long-lived quasi-particle excitations in semiconductor heterostructure that carry an electric dipole. Cold dipolar excitons are expected to have new quantum and classical multi-particle correlation regimes, as well as several collective phases, resulting from the intricate interplay between the many-body interactions and their quantum nature. Here we show experimental evidence of a few correlation regimes of a cold dipolar exciton fluid, created optically in a semiconductor bilayer heterostructure. In the higher temperature regime, the average interaction energy between the particles shows a surprising temperature dependence, which is evidence for correlations beyond the mean field model. At a lower temperature, there is a sharp increase in the interaction energy of optically active excitons, accompanied by a strong reduction in their apparent population. This is evidence for a sharp macroscopic transition to a dark state, as has been suggested theoretically.

Suggested Citation

  • Yehiel Shilo & Kobi Cohen & Boris Laikhtman & Ken West & Loren Pfeiffer & Ronen Rapaport, 2013. "Particle correlations and evidence for dark state condensation in a cold dipolar exciton fluid," Nature Communications, Nature, vol. 4(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3335
    DOI: 10.1038/ncomms3335
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