A contextual cavity QED analogue of the Stern-Gerlach experiment is proposed in which continuous phase-sensitive detection of the cavity field drives spontaneous dressed-state polarization and persistent coherent-state superpositions.
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Adding Kerr nonlinearity to a bimodal Jaynes-Cummings system enables strong, robust photon antibunching via cooperative atom-field and nonlinear effects, resistant to spontaneous emission, drive strength, and mode coupling defects.
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Operating a contextual Stern-Gerlach apparatus
A contextual cavity QED analogue of the Stern-Gerlach experiment is proposed in which continuous phase-sensitive detection of the cavity field drives spontaneous dressed-state polarization and persistent coherent-state superpositions.
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Robust Universal Photon Blockade in a Bimodal Jaynes-Cummings Model via Kerr Nonlinearity
Adding Kerr nonlinearity to a bimodal Jaynes-Cummings system enables strong, robust photon antibunching via cooperative atom-field and nonlinear effects, resistant to spontaneous emission, drive strength, and mode coupling defects.