Optimal passive detuning of an intermediate cavity protects ergotropy in open collective quantum batteries by suppressing environmental memory effects, yielding up to 1088% improvement for single qubits and superextensive collective gains for N greater than or equal to 3.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2years
2026 2representative citing papers
A wavefront-shaping technique enables quantum interference from up to five indistinguishable quantum dots on the same chip.
citing papers explorer
-
Ergotropy Protection via Cavity Detuning in Collective Open Quantum Batteries
Optimal passive detuning of an intermediate cavity protects ergotropy in open collective quantum batteries by suppressing environmental memory effects, yielding up to 1088% improvement for single qubits and superextensive collective gains for N greater than or equal to 3.
-
Scalable Quantum Interference from Indistinguishable Quantum Dots
A wavefront-shaping technique enables quantum interference from up to five indistinguishable quantum dots on the same chip.