Variational quantum algorithm for ergotropy estimation in quantum many-body batteries

Hoang, Duc Tuan; Metz, Friederike; Thomasen, Andreas; Anh-Tai, Tran Duong; Busch, Thomas; Fogarty, Thomás

doi:10.1103/physrevresearch.6.013038

Phys. Rev. Research

2024

DOI: 10.1103/physrevresearch.6.013038

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Variational quantum algorithm for ergotropy estimation in quantum many-body batteries

Duc Tuan Hoang,

Friederike Metz,

Andreas Thomasen

et al.

Abstract: Quantum batteries are predicted to have the potential to outperform their classical counterparts and are therefore an important element in the development of quantum technologies. Of particular interest is the role of correlations in many-body quantum batteries and how these can affect the maximal work extraction, quantified by the ergotropy. In this paper we simulate the charging process and work extraction of many-body quantum batteries on noisy intermediate-scale quantum devices and devise the variational q… Show more

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Cited by 7 publications

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Effect of DM Interaction in the charging process of a Heisenberg spin chain quantum battery

Murugesh

2024

Phys. Scr.

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We investigate the charging performance of an anisotropic XYZ model of Heisenberg Spin Chain Quantum Battery (HS QB) along with different components of Dzyaloshinskii-Moriya Interaction (DMI) for three cases - short range, long range and infinite range interactions. We find that the presence of DMI enhances the charging power and total stored energy of the QB considered here, when compared to HS QB in most of the cases, by considering both local and collective charging protocols. The maximum stored energy increases linearly with the number of spins (N). An extensive scaling of maximum charging power with the number of spins is obtained in which the maximum power approaches a scaling exponent α=1.846 for collective charging of the model consisting of Heisenberg spin chain with Y component of DMI under infinite range interactions. Finally, we optimize the performance of the battery by measuring the quantum energy fluctuations with in the system.

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Effect of DM Interaction in the charging process of a Heisenberg spin chain quantum battery

Murugesh

2024

Phys. Scr.

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Characterizing randomness in parameterized quantum circuits through expressibility and average entanglement

Ilário Correr,

Medina,

Azado

et al. 2024

Quantum Sci. Technol.

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While scalable error correction schemes and fault tolerant quantum computing seem not to be universally accessible in the near sight, the efforts of many researchers have been directed to the exploration of the contemporary available quantum hardware. Due to these limitations, the depth and dimension of the possible quantum circuits are restricted. This motivates the study of circuits with parameterized operations that can be classically optimized in hybrid methods as variational quantum algorithms (VQAs), enabling the reduction of circuit depth and size. The characteristics of these Parameterized Quantum Circuits (PQCs) are still not fully understood outside the scope of their principal application, motivating the study of their intrinsic properties. In this work, we analyse the generation of random states in PQCs under restrictions on the qubits connectivities, justified by different quantum computer architectures. We apply the expressibility quantifier and the average entanglement as diagnostics for the characteristics of the generated states and classify the circuits depending on the topology of the quantum computer where they can be implemented. As a function of the number of layers and qubits, circuits following a Ring topology will have the highest entanglement and expressibility values, followed by Linear/All-to-all almost together and the Star topology. In addition to the characterization of the differences between the entanglementand expressibility of these circuits, we also place a connection between how steep is the increase on the uniformity of the distribution of the generated states and the generation of entanglement. Circuits generating average and standard deviation for entanglement closer to values obtained with the truly uniformly random ensemble of unitaries present a steeper evolution when compared to others.

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OnionVQE optimization strategy for ground state preparation on NISQ devices

Gratsea,

Selisko,

Amsler

et al. 2024

Quantum Sci. Technol.

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The Variational Quantum Eigensolver (VQE) is one of the most promising and widely used algorithms for exploiting the capabilities of current Noisy Intermediate-Scale Quantum (NISQ) devices. However, VQE algorithms suffer from a plethora of issues, such as barren plateaus, local minima, quantum hardware noise, and limited qubit connectivity, thus posing challenges for their successful deployment on hardware and simulators. In this work, we propose a VQE optimization strategy that builds upon recent advances in the literature, and exhibits very shallow circuit depths when applied to the specific system of interest, namely a model Hamiltonian representing a cuprate superconductor. These features make our approach a favorable candidate for generating good ground state approximations on current NISQ devices. Our findings illustrate the potential of VQE algorithmic development for leveraging the full capabilities of NISQ devices.

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Variational quantum algorithm for ergotropy estimation in quantum many-body batteries

Cited by 7 publications

References 97 publications

Effect of DM Interaction in the charging process of a Heisenberg spin chain quantum battery

Effect of DM Interaction in the charging process of a Heisenberg spin chain quantum battery

Characterizing randomness in parameterized quantum circuits through expressibility and average entanglement

OnionVQE optimization strategy for ground state preparation on NISQ devices

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