Necessary criterion for extracting thermodynamical work from   qudit-entangled state

Sumit Nandi

arXiv:2211.05585·quant-ph·January 5, 2023

Necessary criterion for extracting thermodynamical work from qudit-entangled state

Sumit Nandi

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TL;DR

This paper introduces a new criterion for extracting thermodynamical work from bipartite qudit-entangled states, establishing that non-zero G-concurrence is necessary for work extraction via LOCC.

Contribution

It presents a novel necessary condition based on G-concurrence for thermodynamical work extraction from high-dimensional entangled states using LOCC.

Findings

01

Non-vanishing G-concurrence is necessary for work extraction.

02

Work can be extracted from bipartite pure qudit-entangled states under LOCC.

03

The criterion applies to higher-dimensional entangled systems.

Abstract

A novel criterion of extracting thermodynamical work from a bipartite pure qudit-entangled state by means of local operation and classical communication (LOCC) has been presented. We have shown that non-vanishing $G$ -concurrence is a necessary condition to extract work from an higher dimensional entangled state in LOCC paradigm.

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Taxonomy

TopicsQuantum Mechanics and Applications · Advanced Thermodynamics and Statistical Mechanics · Quantum Information and Cryptography