Unconventional photon blockade

We review the unconventional photon blockade mechanism. This quantum effect remarkably enables a strongly sub-Poissonian light statistics, even from a system characterized by a weak single-photon nonlinearity. We revisit the past results, which can be interpreted in terms of quantum interferences or optimal squeezing, and show how recent developments on input-output field mixing can overcome the limitations of the original schemes towards passive and integrable single-photon sources. We finally present some valuable alternative schemes for which the unconventional blockade can be directly adapted.

Unconventional photon blockade

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Room-Temperature Quantum Optomechanics and Free-Electron Quantum Optics

Emergence of highly coherent two-level systems in a noisy and dense quantum network

Investigation of room-temperature single-photon emitters in GaN-based materials and GaN/AlN quantum dots

Room-Temperature Quantum Optomechanics and Free-Electron Quantum Optics

Emergence of highly coherent two-level systems in a noisy and dense quantum network

Investigation of room-temperature single-photon emitters in GaN-based materials and GaN/AlN quantum dots