Quantum corrections to dissipative semiclassical dynamics are set by zero-point energy of fluctuations evaluated at the classical underdamped frequency in the low-temperature weak-damping regime.
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cond-mat.quant-gas 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A corrected two-site equation of motion for bosonic Josephson junctions incorporates quantum and thermal fluctuations, predicting opposite impacts on dynamical quantities with quantum fluctuations dominant in current setups.
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Quantum effective action for dissipative semiclassical dynamics
Quantum corrections to dissipative semiclassical dynamics are set by zero-point energy of fluctuations evaluated at the classical underdamped frequency in the low-temperature weak-damping regime.
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Bosonic Josephson junction dynamics: interplay between quantum and thermal fluctuations
A corrected two-site equation of motion for bosonic Josephson junctions incorporates quantum and thermal fluctuations, predicting opposite impacts on dynamical quantities with quantum fluctuations dominant in current setups.