Bose-Einstein condensation of 2D dipolar excitons: Quantum Monte Carlo simulation

Details Bose-Einstein condensation of 2D dipolar excitons: Quantum Monte Carlo simulation Bose-Einstein condensation of 2D dipolar excitons: Quantum Monte Carlo simulation

2008-12-28

arxiv.org/abs/0812.4837v1

JETP 106(2), 296-315 (2008)

Physics

Condensed Matter

Strongly Correlated Electrons

17 pages, 8 figures

Scientific paper

10.1007/s11447-008-2009-9

The Bose condensation of 2D dipolar excitons in quantum wells is numerically studied by the diffusion Monte Carlo simulation method. The correlation, microscopic, thermodynamic, and spectral characteristics are calculated. It is shown that, in structures of coupled quantum wells, in which low-temperature features of exciton luminescence have presently been observed, dipolar excitons form a strongly correlated system. Their Bose condensation can experimentally be achieved much easily than for ideal or weakly correlated excitons.

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