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Matrix Product State on a Quantum Computer

Published 10 Jun 2025 in quant-ph | (2506.08395v1)

Abstract: Solving quantum many-body systems is one of the most significant regimes where quantum computing applies. Currently, as a hardware-friendly computational paradigms, variational algorithms are often used for finding the ground energy of quantum many-body systems. However, running large-scale variational algorithms is challenging, because of the noise as well as the obstacle of barren plateaus. In this work, we propose the quantum version of matrix product state (qMPS), and develop variational quantum algorithms to prepare it in canonical forms, allowing to run the variational MPS method, which is equivalent to the Density Matrix Renormalization Group method, on near term quantum devices. Compared with widely used methods such as variational quantum eigensolver, this method can greatly reduce the number of qubits used in local optimization, and thus mitigate the effects of barren plateaus while obtaining better accuracy. Our method holds promise for distributed quantum computing, offering possibilities for fusion of different computing systems.

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