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Multi-state quantum simulations via model-space quantum imaginary time evolution

Physics

Multi-state quantum simulations via model-space quantum imaginary time evolution

T. Tsuchimochi, Y. Ryo, et al.

Discover the groundbreaking Model-space Quantum Imaginary Time Evolution (MSQITE) framework developed by Takashi Tsuchimochi, Yoohee Ryo, Siu Chung Tsang, and Seiichiro L. Ten-no. This innovative approach enhances ground and excited state estimations, outperforming traditional methods while efficiently capturing excited states with specific spin quantum numbers. Dive into the future of quantum computing research!

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~3 min • Beginner • English
Abstract
We introduce the framework of model space into quantum imaginary time evolution (QITE) to enable stable estimation of ground and excited states using a quantum computer. Model-space QITE (MSQITE) propagates a model space to the exact one by retaining its orthogonality, and hence is able to describe multiple states simultaneously. The quantum Lanczos (QLanczos) algorithm is extended to MSQITE to accelerate the convergence. The present scheme is found to outperform both the standard QLanczos and the recently proposed folded-spectrum QITE in simulating excited states. Moreover, we demonstrate that spin contamination can be effectively removed by shifting the imaginary time propagator, and thus excited states with a particular spin quantum number are efficiently captured without falling into the different spin states that have lower energies. We also investigate how different levels of the unitary approximation employed in MSQITE can affect the results. The effectiveness of the algorithm over QITE is demonstrated by noise simulations for the H₄ model system.
Publisher
npj Quantum Information
Published On
Nov 07, 2023
Authors
Takashi Tsuchimochi, Yoohee Ryo, Siu Chung Tsang, Seiichiro L. Ten-no
Tags
quantum computing
imaginary time evolution
excited states
orthogonality
MSQITE
quantum algorithms
spin contamination
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