Tsirelson’s bound and Landauer’s principle in a single-system game
ORAL
Abstract
We introduce a simple single-system game inspired by the Clauser-Horne-Shimony-Holt (CHSH)
game. For qubit systems subjected to unitary gates and projective measurements, we prove that any
strategy in our game can be mapped to a strategy in the CHSH game, which implies that Tsirelson’s
bound also holds in our setting. More generally, we show that the optimal success probability
depends on the reversible or irreversible character of the gates, the quantum or classical nature of the
system and the system dimension. We analyse the bounds obtained in light of Landauer’s principle,
showing the entropic costs of the erasure associated with the game. This shows a connection between
the reversibility in fundamental operations embodied by Landauer’s principle and Tsirelson’s bound,
that arises from the restricted physics of a unitarily-evolving single-qubit system.
https://arxiv.org/pdf/1806.05624.pdf
game. For qubit systems subjected to unitary gates and projective measurements, we prove that any
strategy in our game can be mapped to a strategy in the CHSH game, which implies that Tsirelson’s
bound also holds in our setting. More generally, we show that the optimal success probability
depends on the reversible or irreversible character of the gates, the quantum or classical nature of the
system and the system dimension. We analyse the bounds obtained in light of Landauer’s principle,
showing the entropic costs of the erasure associated with the game. This shows a connection between
the reversibility in fundamental operations embodied by Landauer’s principle and Tsirelson’s bound,
that arises from the restricted physics of a unitarily-evolving single-qubit system.
https://arxiv.org/pdf/1806.05624.pdf
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Presenters
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Luciana Henaut
University College London
Authors
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Luciana Henaut
University College London
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Lorenzo Catani
Chapman University
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Dan Browne
University College London, Physics & Astronomy, University College London
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Shane Mansfield
Sorbonne Universite
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Anna Pappa
University College London