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Main Authors: Biswas, George, Hu, Shao-Hua, Wu, Jun-Yi, Biswas, Debasish, Biswas, Anindya
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2308.01714
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author Biswas, George
Hu, Shao-Hua
Wu, Jun-Yi
Biswas, Debasish
Biswas, Anindya
author_facet Biswas, George
Hu, Shao-Hua
Wu, Jun-Yi
Biswas, Debasish
Biswas, Anindya
contents We investigate the fidelity of Haar random bipartite pure states from a fixed reference quantum state and their bipartite entanglement. By plotting the fidelity and entanglement on perpendicular axes, we observe that the resulting plots exhibit non-uniform distributions. The distribution depends on the entanglement of the fixed reference quantum state used to quantify the fidelity of the random pure bipartite states. We find that the average fidelity of typical random pure bipartite qubits within a narrow entanglement range with respect to a randomly chosen fixed bipartite qubit is $\frac{1}{4}$. Extending our study to higher dimensional bipartite qudits, we find that the average fidelity of typical random pure bipartite qudits with respect to a randomly chosen fixed bipartite qudit remains constant within a narrow entanglement range. The values of these constants are \(\frac{1}{d^2}\), with d being the dimension of the local Hilbert space of the bipartite qudit system, suggesting a consistent relationship between entanglement and fidelity across different dimensions. The probability distribution functions of fidelity with respect to a product state are analytically studied and used as a reference for the benchmarking of distributed quantum computing devices.
format Preprint
id arxiv_https___arxiv_org_abs_2308_01714
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publishDate 2023
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spellingShingle Fidelity and Entanglement of Random Bipartite Pure States: Insights and Applications
Biswas, George
Hu, Shao-Hua
Wu, Jun-Yi
Biswas, Debasish
Biswas, Anindya
Quantum Physics
We investigate the fidelity of Haar random bipartite pure states from a fixed reference quantum state and their bipartite entanglement. By plotting the fidelity and entanglement on perpendicular axes, we observe that the resulting plots exhibit non-uniform distributions. The distribution depends on the entanglement of the fixed reference quantum state used to quantify the fidelity of the random pure bipartite states. We find that the average fidelity of typical random pure bipartite qubits within a narrow entanglement range with respect to a randomly chosen fixed bipartite qubit is $\frac{1}{4}$. Extending our study to higher dimensional bipartite qudits, we find that the average fidelity of typical random pure bipartite qudits with respect to a randomly chosen fixed bipartite qudit remains constant within a narrow entanglement range. The values of these constants are \(\frac{1}{d^2}\), with d being the dimension of the local Hilbert space of the bipartite qudit system, suggesting a consistent relationship between entanglement and fidelity across different dimensions. The probability distribution functions of fidelity with respect to a product state are analytically studied and used as a reference for the benchmarking of distributed quantum computing devices.
title Fidelity and Entanglement of Random Bipartite Pure States: Insights and Applications
topic Quantum Physics
url https://arxiv.org/abs/2308.01714