Related papers: Energetics of a pulsed quantum battery

Energetics of a pulsed quantum battery

URL: http://arxiv.org/abs/2403.20155v1
Date: Fri, 29 Mar 2024 12:54:53 GMT
Title: Energetics of a pulsed quantum battery
Authors: C. A. Downing, M. S. Ukhtary,
Abstract summary: We present a transparent analytic model of a two-component quantum battery composed of a charger and an energy holder. We discuss explicitly the optimal design of the battery in terms of the driving strength of the pulse, the coupling between the charger and the holder, and the inevitable energy loss into the environment. We anticipate that our theory can act as a helpful guide for the nascent experimental work building and characterizing the first generation of truly quantum batteries.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The challenge of storing energy efficiently and sustainably is highly prominent within modern scientific investigations. Due to the ongoing trend of miniaturization, the design of expressly quantum storage devices is itself a crucial task within current quantum technological research. Here we provide a transparent analytic model of a two-component quantum battery, composed of a charger and an energy holder, which is driven by a short laser pulse. We provide simple expressions for the energy stored in the battery, the maximum amount of work which can be extracted, both the instantaneous and the average powers, and the relevant charging times. This allows us to discuss explicitly the optimal design of the battery in terms of the driving strength of the pulse, the coupling between the charger and the holder, and the inevitable energy loss into the environment. We anticipate that our theory can act as a helpful guide for the nascent experimental work building and characterizing the first generation of truly quantum batteries.

Related papers

Performance of a Superconducting Quantum Battery [0.5937476291232802]
We introduce a superconducting quantum battery model that demonstrates a quantum advantage while remaining feasible for experimental production. The model consists of two coupled superconducting qubits that interact during the unitary charging process while remaining in equilibrium with a thermal reservoir. We demonstrate that leveraging the collective effects of Josephson energies and the coupling energy between qubits allows for optimization, resulting in improved energy redistribution and a significant enhancement in charging efficiency.
arXiv Detail & Related papers (2024-11-28T16:35:16Z)
Two-photon charging of a quantum battery with a Gaussian pulse envelope [0.0]
We show how an exponential enhancement in stored energy can be achieved with a quantum battery thanks to a two-photon charging protocol. Our results demonstrate a plausible mechanism for quickly storing a vast amount of energy in a quantum object defined by continuous variables.
arXiv Detail & Related papers (2024-07-09T12:35:29Z)
Hysteresis and Self-Oscillations in an Artificial Memristive Quantum Neuron [79.16635054977068]
We study an artificial neuron circuit containing a quantum memristor in the presence of relaxation and dephasing. We demonstrate that this physical principle enables hysteretic behavior of the current-voltage characteristics of the quantum device.
arXiv Detail & Related papers (2024-05-01T16:47:23Z)
Amplification of quantum transfer and quantum ratchet [56.47577824219207]
We study a model of amplification of quantum transfer and making it directed which we call the quantum ratchet model. The ratchet effect is achieved in the quantum control model with dissipation and sink, where the Hamiltonian depends on vibrations in the energy difference synchronized with transitions between energy levels. Amplitude and frequency of the oscillating vibron together with the dephasing rate are the parameters of the quantum ratchet which determine its efficiency.
arXiv Detail & Related papers (2023-12-31T14:04:43Z)
A quantum battery with quadratic driving [0.0]
Quantum batteries are energy storage devices built using quantum mechanical objects. We study theoretically a bipartite quantum battery model, composed of a driven charger connected to an energy holder.
arXiv Detail & Related papers (2023-11-04T15:01:36Z)
First design of a superconducting qubit for the QUB-IT experiment [50.591267188664666]
The goal of the QUB-IT project is to realize an itinerant single-photon counter exploiting Quantum Non Demolition (QND) measurements and entangled qubits. We present the design and simulation of the first superconducting device consisting of a transmon qubit coupled to a resonator using Qiskit-Metal.
arXiv Detail & Related papers (2022-07-18T07:05:10Z)
Nuclear two point correlation functions on a quantum-computer [105.89228861548395]
We use current quantum hardware and error mitigation protocols to calculate response functions for a highly simplified nuclear model. In this work we use current quantum hardware and error mitigation protocols to calculate response functions for a modified Fermi-Hubbard model in two dimensions with three distinguishable nucleons on four lattice sites.
arXiv Detail & Related papers (2021-11-04T16:25:33Z)
Optimal charging of a superconducting quantum battery [13.084212951440033]
We report the experimental realization of a quantum battery based on superconducting qubits. Our model explores dark and bright states to achieve stable and powerful charging processes, respectively. Our results pave the way for proposals of new superconducting circuits able to store extractable work for further usage.
arXiv Detail & Related papers (2021-08-09T18:53:07Z)
Highly efficient charging and discharging of three-level quantum batteries through shortcuts to adiabaticity [0.0]
We investigate the charging and discharging dynamics of a three-level counterdiabatic stimulated Raman adiabatic passage quantum battery. The scheme can significantly speed up the charging and discharging processes of a three-level quantum battery. We explore the effect of both the amplitude and the delay time of driving fields on the performances of the quantum battery.
arXiv Detail & Related papers (2021-04-28T09:47:15Z)
Probing quantum information propagation with out-of-time-ordered correlators [41.12790913835594]
Small-scale quantum information processors hold the promise to efficiently emulate many-body quantum systems. Here, we demonstrate the measurement of out-of-time-ordered correlators (OTOCs) A central requirement for our experiments is the ability to coherently reverse time evolution.
arXiv Detail & Related papers (2021-02-23T15:29:08Z)
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.