A two-phonon resonance condition in a multimode optomechanical setup with linear coupling enables deterministic generation of high-purity multicomponent mechanical cat states immune to losses.
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A protocol for dissipative stabilization of Gaussian mechanical states in multimode optomechanics via a single squeezed reservoir that approximates a prior ideal model and generates rectangular-graph cluster states.
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Two-Phonon Resonance Drives Multicomponent Mechanical Cat States
A two-phonon resonance condition in a multimode optomechanical setup with linear coupling enables deterministic generation of high-purity multicomponent mechanical cat states immune to losses.
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Multimode Gaussian steady state engineering in optomechanical systems with a squeezed reservoir
A protocol for dissipative stabilization of Gaussian mechanical states in multimode optomechanics via a single squeezed reservoir that approximates a prior ideal model and generates rectangular-graph cluster states.