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Auteurs principaux: Ramachandran, Dharmaraj, Dubey, Aditya, Mantha, Subrahmanyam S. G., Vathsan, Radhika
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2412.08304
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author Ramachandran, Dharmaraj
Dubey, Aditya
Mantha, Subrahmanyam S. G.
Vathsan, Radhika
author_facet Ramachandran, Dharmaraj
Dubey, Aditya
Mantha, Subrahmanyam S. G.
Vathsan, Radhika
contents We introduce an entanglement measure, the Modified Bloch Norm (MBN), for finite-dimensional bipartite mixed states, based on the improved Bloch matrix criteria. MBN is demonstrated to be effective in analyzing the dynamics of bound entanglement--a valuable resource for quantum protocols where free entanglement may not be available. Through examples, we illustrate the applications of MBN in accurately estimating the Entanglement Sudden Death (ESD) time and detecting behavior such as the freezing of bound entanglement. Additionally, we show that the error rate for entanglement measured using state estimation from a limited number of measurement copies is significantly lower when using MBN compared to negativity. This demonstrates the robustness of MBN under practical constraints.
format Preprint
id arxiv_https___arxiv_org_abs_2412_08304
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Robust entanglement measure for mixed quantum states
Ramachandran, Dharmaraj
Dubey, Aditya
Mantha, Subrahmanyam S. G.
Vathsan, Radhika
Quantum Physics
We introduce an entanglement measure, the Modified Bloch Norm (MBN), for finite-dimensional bipartite mixed states, based on the improved Bloch matrix criteria. MBN is demonstrated to be effective in analyzing the dynamics of bound entanglement--a valuable resource for quantum protocols where free entanglement may not be available. Through examples, we illustrate the applications of MBN in accurately estimating the Entanglement Sudden Death (ESD) time and detecting behavior such as the freezing of bound entanglement. Additionally, we show that the error rate for entanglement measured using state estimation from a limited number of measurement copies is significantly lower when using MBN compared to negativity. This demonstrates the robustness of MBN under practical constraints.
title Robust entanglement measure for mixed quantum states
topic Quantum Physics
url https://arxiv.org/abs/2412.08304