Canonical commutation relations impose a lower bound of 1 (or 1/2 with parametric driving) on the sum of mode-optimal normalized quadrature variances in reservoir-engineered bosonic squeezing networks, saturated in the strong-coupling limit.
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Coupling storage qubits to driven qubits in chiral waveguide QED tailors the steady state for higher and more loss-resilient remote entanglement between the storage qubits.
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Quantum limits on squeezing
Canonical commutation relations impose a lower bound of 1 (or 1/2 with parametric driving) on the sum of mode-optimal normalized quadrature variances in reservoir-engineered bosonic squeezing networks, saturated in the strong-coupling limit.
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Loss resilience of driven-dissipative remote entanglement in chiral waveguide quantum electrodynamics
Coupling storage qubits to driven qubits in chiral waveguide QED tailors the steady state for higher and more loss-resilient remote entanglement between the storage qubits.