A quantum battery is proposed on the coherent Ising machine platform, with coherent ergotropy shown to decay slower than incoherent ergotropy and to peak simultaneously with charging power at an optimal pump switch-off time.
Title resolution pending
7 Pith papers cite this work. Polarity classification is still indexing.
fields
quant-ph 7representative citing papers
A paired dual-squeezer Mach-Zehnder interferometer reaches Heisenberg-limited phase sensitivity with direct photon-number-difference detection by overcoming the equal-intensity divergence of standard squeezed-vacuum schemes.
Initial quantum correlations among qubits enhance quantum Fisher information for temperature estimation in nonequilibrium Markovian thermalization, with early-time peaks and near-standard-quantum-limit performance for entangled states at high temperatures.
Introduces three entanglement measures for anyonic systems showing decomposition of total entanglement into conventional and anyonic charge components with geometric equivalence.
Extends qubit-channel metrology to spectator noise, supplying algebraic tests that decide when correlated n-qubit inputs beat single-qubit inputs under different noise types.
Hybrid optomechanics with three-level atom enables steady-state transfer of mechanical squeezing to optical field via coherent phonon pump or squeezed bath, achieving high fidelity.
citing papers explorer
-
Quantum batteries in coherent Ising machine
A quantum battery is proposed on the coherent Ising machine platform, with coherent ergotropy shown to decay slower than incoherent ergotropy and to peak simultaneously with charging power at an optimal pump switch-off time.