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Long-Lived Photon Blockade with Weak Optical Nonlinearity

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arxiv 2502.09930 v3 pith:PENTQOO6 submitted 2025-02-14 quant-ph physics.optics

Long-Lived Photon Blockade with Weak Optical Nonlinearity

classification quant-ph physics.optics
keywords photonblockadeweakcavitynonlinearityopticalcavitiesconventional
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In conventional photon blockade, the occupation of a cavity mode by more than one photon is suppressed via strong optical nonlinearity. An alternative, called unconventional photon blockade, can occur under weak nonlinearity by relying on quantum interference between fine-tuned cavities. A serious limitation is the very short antibunching time window, orders of magnitude less than the cavity lifetime. We present a method to achieve photon blockade over a large time window of several cavity lifetimes, even exceeding that of conventional photon blockade, while still requiring only weak nonlinearity. This ``long-lived photon blockade'' (LLPB) occurs when the single-photon Green's function exhibits a zero at a large cavity loss rate, which is satisfied by an exemplary configuration of four coupled cavities under weak driving. Our analytical results agree well with wavefunction Monte Carlo simulations. The LLPB phenomenon may aid the development of single-photon sources utilizing materials with weak optical nonlinearities.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Giant Photon Superbunching from Weak Nonlinearity

    physics.optics 2026-05 unverdicted novelty 7.0

    Numerical calculations predict g^{(2)}(0) = 135 superbunching at 80 kHz emission rate in four weakly nonlinear Kerr resonators via interference-engineered squeezed vacuum.

  2. Unconventional Photon Blockade in a Symmetrically Driven Nonlinear Dimer

    quant-ph 2026-04 unverdicted novelty 6.0

    A symmetrically driven Kerr dimer with 90-degree phase difference produces oscillation-free antibunched light at weak nonlinearity U much less than gamma and minimum coupling J equal to gamma over 4.