Quantum interpolating ensemble: Bi-orthogonal polynomials and average entropies
Mar 6, 202129 pages
Published in:
- Random Matr.Theor.Appl. 12 (2023) 02, 2250055
- Published: Oct 26, 2022
e-Print:
- 2103.04231 [quant-ph]
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Abstract: (WSP)
The density matrix formalism is a fundamental tool in studying various problems in quantum information processing. In the space of density matrices, the most well-known measures are the Hilbert–Schmidt and Bures–Hall ensembles. In this work, the averages of quantum purity and von Neumann entropy for an ensemble that interpolates between these two major ensembles are explicitly calculated for finite-dimensional systems. The proposed interpolating ensemble is a specialization of the 𝜃-deformed Cauchy–Laguerre two-matrix model and new results for this latter ensemble are given in full generality, including the recurrence relations satisfied by their associated bi-orthogonal polynomials when 𝜃 assumes positive integer values.Note:
- 29 pages, 4 figures
- Quantum entanglement
- entanglement entropy
- random matrix theory
- bi-orthogonal polynomials
- interpolating ensemble
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Figures(4)
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