Related papers: Fluctuation in energy extraction from quantum batteries: How open should the system be to control it?

Fluctuation in energy extraction from quantum batteries: How open should the system be to control it?

URL: http://arxiv.org/abs/2505.16851v1
Date: Thu, 22 May 2025 16:12:15 GMT
Title: Fluctuation in energy extraction from quantum batteries: How open should the system be to control it?
Authors: Anindita Sarkar, Paranjoy Chaki, Priya Ghosh, Ujjwal Sen,
Abstract summary: We show that all three process classes yield the same average extractable energy from a fixed quantum battery.<n>Open systems are better at controlling fluctuations in fixed quantum batteries.<n>When the auxiliary system used to implement the non-unitary physically realizable maps is restricted up to a dimension $n$, fluctuation in extractable energy scales as $1/n$ for CPTP maps.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We ask whether there exists a relation between controllability of the fluctuations in extractable energy of a quantum battery and (a) how open an arbitrary but fixed battery system is and (b) how large the battery is. We examine three classes of quantum processes for the energy extraction: unitary operations, completely positive trace-preserving (CPTP) maps, and arbitrary quantum maps, including physically realizable non-CPTP maps. We show that all three process classes yield the same average extractable energy from a fixed quantum battery. Moreover, open systems are better at controlling fluctuations in fixed quantum batteries: while random unitary operations result in nonzero fluctuation in the extractable energy, the remaining two classes lead to vanishing fluctuations in extractable energy. Furthermore, when the auxiliary system used to implement the non-unitary physically realizable maps is restricted up to a dimension $n$, fluctuation in extractable energy scales as $1/n$ for CPTP maps, outperforming the $\ln{n}/n$ scaling observed for general quantum maps. Even within open dynamics, therefore, energy extraction via random CPTP maps exhibits greater resilience to fluctuation compared to processes based on arbitrary quantum maps. We subsequently obtain that fluctuations in extractable energy scale as the inverse of the battery's dimension for all three process classes. Unitary maps, therefore, perform - in the sense of as low fluctuation as possible - equally well as more resource-intensive open maps, provided we have access to large quantum batteries. The results underscore a fundamental trade-off between performance of a battery and the resource cost of implementing the extraction processes.

Related papers

Quantum Computation with Quantum Batteries [0.0]
We propose quantum batteries as intrinsic energy sources for quantum computation.<n>A bosonic Fock-state QB can supply the energy required for all unitary gates via quantum field recycling.<n> Implementing this scheme on cryogenic platforms eliminates the need for a dedicated drive line per qubit.
arXiv Detail & Related papers (2025-03-30T22:23:00Z)
Hyperbolic enhancement of a quantum battery [0.0]
We show how one can circumvent the problem of energy loss by proposing a quantum battery model. Namely, charging the battery quadratically with a short temporal pulse induces a hyperbolic enhancement in the stored energy. We show that when the driving is strong enough the useful work which can be extracted from the quantum battery, that is the ergotropy, is exactly equal to the stored energy.
arXiv Detail & Related papers (2024-05-19T20:13:04Z)
Second Law of Entanglement Manipulation with Entanglement Battery [41.94295877935867]
A central question since the beginning of quantum information science is how two distant parties can convert one entangled state into another.<n>It has been conjectured that such conversions could be executed reversibly in an regime, mirroring the reversible nature of Carnot cycles in classical thermodynamics.<n>We show that arbitrary mixed state entanglement transformations can be made under local operations and classical reversible communication.
arXiv Detail & Related papers (2024-05-17T07:55:04Z)
Phenomenon of a stronger trapping behaviour in $Λ$-type quantum systems with symmetry [45.9982965995401]
We study how degeneracy in energy states and Bohr frequencies of $Lambda$-type systems affects the efficiency or difficulty of finding optimal shape of the control field. We find that the degeneracy of Bohr frequencies in the $Xi$ system leads to the appearance of seventh order trap with a more significant attracting domain.
arXiv Detail & Related papers (2024-04-10T11:42:48Z)
Variational-quantum-eigensolver-inspired optimization for spin-chain work extraction [39.58317527488534]
Energy extraction from quantum sources is a key task to develop new quantum devices such as quantum batteries. One of the main issues to fully extract energy from the quantum source is the assumption that any unitary operation can be done on the system. We propose an approach to optimize the extractable energy inspired by the variational quantum eigensolver (VQE) algorithm.
arXiv Detail & Related papers (2023-10-11T15:59:54Z)
Noncompletely Positive Quantum Maps Enable Efficient Local Energy Extraction in Batteries [0.0]
Energy extraction from quantum batteries by means of completely positive trace-preserving maps leads to the concept of CPTP-local passive states. We show that energy can be extracted efficiently from CPTP-local passive states employing NCPTP but still physically realizable maps on the same part of the shared battery. We provide a necessary and sufficient condition and a separate necessary condition for an arbitrary bipartite state to be unable to supply any energy using non-completely positive trace-preserving operations on one party with respect to an arbitrary but fixed Hamiltonian.
arXiv Detail & Related papers (2023-07-31T15:08:05Z)
Enhancing the efficiency of open quantum batteries via adjusting the classical driving field [0.0]
The study of open quantum batteries is motivated by the fact that real-world quantum systems are almost never perfectly isolated from their environment. The charging process of open quantum batteries under the influence of dissipative environment will be studied.
arXiv Detail & Related papers (2023-03-31T08:41:04Z)
Calculating the many-body density of states on a digital quantum computer [58.720142291102135]
We implement a quantum algorithm to perform an estimation of the density of states on a digital quantum computer. We use our algorithm to estimate the density of states of a non-integrable Hamiltonian on the Quantinuum H1-1 trapped ion chip for a controlled register of 18bits.
arXiv Detail & Related papers (2023-03-23T17:46:28Z)
Quantum thermodynamic methods to purify a qubit on a quantum processing unit [68.8204255655161]
We report on a quantum thermodynamic method to purify a qubit on a quantum processing unit equipped with identical qubits. Our starting point is a three qubit design that emulates the well known two qubit swap engine. We implement it on a publicly available superconducting qubit based QPU, and observe a purification capability down to 200 mK.
arXiv Detail & Related papers (2022-01-31T16:13:57Z)
Closed-loop three-level charged quantum battery [0.0]
We present a closed-loop quantum battery by utilizing a closed-loop three-state quantum system. We investigate the charging process of the closed-loop three-level quantum battery. Possible experimental implementation in nitrogen-vacancy spin is discussed.
arXiv Detail & Related papers (2020-04-20T16:33:18Z)
Bounds on charging power of open quantum batteries [0.0]
We study fundamental bounds on the power of open quantum batteries from the geometric point of view. Our results show that the maximum value of both the stored work and the corresponding power is achieved in the non-Markovian underdamped regime.
arXiv Detail & Related papers (2020-03-22T05:33:08Z)
Entanglement generation via power-of-SWAP operations between dynamic electron-spin qubits [62.997667081978825]
Surface acoustic waves (SAWs) can create moving quantum dots in piezoelectric materials. We show how electron-spin qubits located on dynamic quantum dots can be entangled.
arXiv Detail & Related papers (2020-01-15T19:00:01Z)

This list is automatically generated from the titles and abstracts of the papers in this site.