A variational quantum algorithm by Bayesian Inference with von Mises-Fisher distribution

The variational quantum eigensolver algorithm has gained attentions due to its capability of locating the ground state and ground energy of a Hamiltonian, which is a fundamental task in many physical and chemical problems. Although it has demonstrated promising results, the use of various types of m...

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Veröffentlicht in:	arXiv.org 2024-10
Hauptverfasser:	Huynh, Trung, An, Gwangil, Kim, Minsu, Yu-Seong, Jeon, Lee, Jinhyoung
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Sprache:	eng
Schlagworte:	Algorithms Bayesian analysis Energy distribution Ground state Quantum phenomena Statistical inference
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description	The variational quantum eigensolver algorithm has gained attentions due to its capability of locating the ground state and ground energy of a Hamiltonian, which is a fundamental task in many physical and chemical problems. Although it has demonstrated promising results, the use of various types of measurements remains a significant obstacle. Recently, a quantum phase estimation algorithm inspired measurement scheme has been proposed to overcome this issue by introducing an additional ancilla system that is coupled to the primary system. Based on this measurement scheme, we present a novel approach that employs Bayesian inference principles together with von Mises-Fisher distribution and theoretically demonstrates the new algorithm's capability in identifying the ground state with certain for various random Hamiltonian matrices. This also opens a new way for exploring the von Mises-Fisher distribution potential in other quantum information science problems.
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subjects	Algorithms Bayesian analysis Energy distribution Ground state Quantum phenomena Statistical inference
title	A variational quantum algorithm by Bayesian Inference with von Mises-Fisher distribution
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