Quantumness of Product States

Jing-Ling Chen; Hong-Yi Su; Chunfeng Wu; and C. H. Oh

arXiv:1204.1798·quant-ph·April 11, 2012·1 cites

Quantumness of Product States

Jing-Ling Chen, Hong-Yi Su, Chunfeng Wu, and C. H. Oh

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TL;DR

This paper explores the quantum nature of product states by demonstrating their ability to violate classical algebraic models, challenging the notion that they are purely classical.

Contribution

It introduces a method to reveal the quantumness of product states through violation of classical algebraic models, supported by an experimental protocol.

Findings

01

Product states can violate classical algebraic models.

02

Quantum and classical predictions do not always align for product states.

03

An experimental protocol is proposed to detect this quantumness.

Abstract

Product states do not violate Bell inequalities. In this work, we investigate the quantumness of product states by violating a certain classical algebraic models. Thus even for product states, statistical predictions of quantum mechanics and classical theories do not agree. An experiment protocol is proposed to reveal the quantumness.

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Taxonomy

TopicsQuantum Mechanics and Applications · Quantum Information and Cryptography · Quantum Computing Algorithms and Architecture