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Minimum entangled state dimension required for pseudo-telepathy

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arxiv quant-ph/0412136 v2 pith:6AA6XIQJ submitted 2004-12-17 quant-ph

Minimum entangled state dimension required for pseudo-telepathy

classification quant-ph
keywords gamepseudo-telepathyquantumtheydimensionquestionssharetwo-player
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Pseudo-telepathy provides an intuitive way of looking at Bell's inequalities, in which it is often obvious that feats achievable by use of quantum entanglement would be classically impossible. A two-player pseudo-telepathy game proceeds as follows: Alice and Bob are individually asked a question and they must provide an answer. They are not allowed any form of communication once the questions are asked, but they may have agreed on a common strategy prior to the execution of the game. We say that they win the game if the questions and answers fulfil a specific relation. A game exhibits pseudo-telepathy if there is a quantum strategy that makes Alice and Bob win the game for all possible questions, provided they share prior entanglement, whereas it would be impossible to win this game systematically in a classical setting. In this paper, we show that any two-player pseudo-telepathy game requires the quantum players to share an entangled quantum system of dimension at least 3x3. This is optimal for two-player games, but the most efficient pseudo-telepathy game possible, in terms of total dimension, involves three players who share a quantum system of dimension 2x2x2.

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  1. All pure entangled states can lead to fully nonlocal correlations

    quant-ph 2026-04 unverdicted novelty 7.0

    Non-maximally entangled states exhibit full nonlocality under simple Schmidt coefficient conditions, and all pure entangled states can be activated to full nonlocality with multiple copies.