Coulomb interaction breaks the mechanical dark mode in degenerate optomechanical resonators, allowing simultaneous ground-state cooling, squeezing beyond 3 dB, and multipartite entanglement.
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In a waveguide array with pump in one guide, symmetric pairs become entangled after sufficient propagation distance, with an optimal pump amplitude and phase noise impact that grows with average photon number.
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Breaking mechanical dark mode via the Coulomb interaction
Coulomb interaction breaks the mechanical dark mode in degenerate optomechanical resonators, allowing simultaneous ground-state cooling, squeezing beyond 3 dB, and multipartite entanglement.
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Generation of gaussian entangled states of light in an array of nonlinear waveguides
In a waveguide array with pump in one guide, symmetric pairs become entangled after sufficient propagation distance, with an optimal pump amplitude and phase noise impact that grows with average photon number.