Analytic expressions for the two-qubit mean-force Gibbs state show that reservoir-mediated entanglement is highest at low temperature, non-monotonic in coupling strength, and can be enhanced by broadening the reservoir spectral density.
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Quantum dot implementation of CJoin gate with one-bit memory and periodic resets yields thermodynamic cost bounded by a few k_B T and particle emission bounded by irreversible entropy production plus dynamical activity in bipartite dynamics.
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Reservoir-mediated spin entanglement in the mean-force Gibbs state
Analytic expressions for the two-qubit mean-force Gibbs state show that reservoir-mediated entanglement is highest at low temperature, non-monotonic in coupling strength, and can be enhanced by broadening the reservoir spectral density.
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Join gate with memory in token-conserving Brownian circuits and the thermodynamic cost
Quantum dot implementation of CJoin gate with one-bit memory and periodic resets yields thermodynamic cost bounded by a few k_B T and particle emission bounded by irreversible entropy production plus dynamical activity in bipartite dynamics.