English

Isocoherent Work Extraction from Quantum Batteries: Basis-Dependent Response

Quantum Physics 2025-07-23 v1

Abstract

We identify a connection between quantum coherence and the maximum extractable work from a quantum battery, and to this end, we define the coherence-constrained maximal work (CCMW) as the highest amount of work extractable via coherence-preserving unitaries, optimized over all quantum states with fixed coherence in a given dimension. For qubit systems, we derive an analytical relation between the CCMW and the input coherence, defined with respect to an arbitrary fixed basis. Strikingly, we find that for fixed quantum coherence in the energy eigenbasis, the maximal extractable work decreases with increase of coherence. In contrast, when quantum coherence is with respect to a basis for which the Hamiltonian possesses off-diagonal elements, and has equal diagonal elements, the CCMW increases with the level of quantum coherence. We numerically observe that the basis-dependent response of the CCMW also persists in higher-dimensional quantum systems. Moreover, we show that even in higher dimensions one can derive closed-form relations between the CCMW and the input quantum coherence within certain numerically-assessed conclusions. We also comment on the structure of passive states in an isocoherent scenario, that is, states from which no energy can be extracted under coherence-preserving unitaries.

Keywords

Cite

@article{arxiv.2507.16610,
  title  = {Isocoherent Work Extraction from Quantum Batteries: Basis-Dependent Response},
  author = {Shuva Mondal and Debarupa Saha and Ujjwal Sen},
  journal= {arXiv preprint arXiv:2507.16610},
  year   = {2025}
}

Comments

15 pages, 4 figures

R2 v1 2026-07-01T04:13:28.712Z