Abstract
We report a record-size, two-dimensional polariton condensate of a fraction of a millimeter radius free from the presence of an exciton reservoir. This macroscopically occupied state is formed by the ballistically expanding polariton flow that relaxes and condenses over a large area outside of the excitation spot. The density of this trap-free condensate is <1 polariton/μm2, reducing the phase noise induced by the interaction energy. Moreover, the backflow effect, recently predicted for the nonparabolic polariton dispersion, is observed here for the first time in the fast-expanding wave packet.
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CITATION STYLE
Ballarini, D., Caputo, D., Muñoz, C. S., De Giorgi, M., Dominici, L., Szymańska, M. H., … Sanvitto, D. (2017). Macroscopic Two-Dimensional Polariton Condensates. Physical Review Letters, 118(21). https://doi.org/10.1103/PhysRevLett.118.215301
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