Towards polariton blockade of confined exciton–polaritons
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Date
2019-03
Publication Type
Journal Article
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yes
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Abstract
Cavity–polaritons in semiconductor microstructures have emerged as a promising system for exploring non-equilibrium dynamics of many-body systems. Key advances in this field, including the observation of polariton condensation, superfluidity, realization of topological photonic bands, and dissipative phase transitions, generically allow for a description based on a mean-field Gross–Pitaevskii formalism. Observation of polariton intensity squeezing and decoherence of a polarization entangled photon pair by a polariton condensate, on the other hand, demonstrate quantum effects that show up at high polariton occupancy. Going beyond and into the regime of strongly correlated polaritons requires the observation of a photon blockade effect where interactions are strong enough to suppress double occupancy of a photonic lattice site. Here, we report evidence of quantum correlations between polaritons spatially confined in a fibre cavity. Photon correlation measurements show that careful tuning of the coupled system can lead to a modest reduction of simultaneous two-polariton generation probability by 5%. Concurrently, our experiments allow us to measure the polariton interaction strength, thereby resolving the controversy stemming from recent experimental reports. Our findings constitute an essential step towards the realization of strongly interacting photonic systems.
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published
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Journal / series
Volume
18 (3)
Pages / Article No.
219 - 222
Publisher
Nature
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Organisational unit
03636 - Imamoglu, Atac / Imamoglu, Atac
Notes
It was possible to publish this article open access thanks to a Swiss National Licence with the publisher.
Funding
158569 - Polariton-based single-photon sources (SNF)
671000 - Interacting polaritons in two-dimensional electron systems (EC)
671000 - Interacting polaritons in two-dimensional electron systems (EC)