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Entanglement Sharing in Real-Vector-Space Quantum Theory
Foundations of Physics 42 (1):19-28 (2012)
Abstract
The limitation on the sharing of entanglement is a basic feature of quantum theory. For example, if two qubits are completely entangled with each other, neither of them can be at all entangled with any other object. In this paper we show, at least for a certain standard definition of entanglement, that this feature is lost when one replaces the usual complex vector space of quantum states with a real vector space. Moreover, the difference between the two theories is extreme: in the real-vector-space theory, there exist states of arbitrarily many binary objects, “rebits,” in which every rebit in the system is maximally entangled with each of the other rebitsLinks
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Citations of this work
Quaternionic Quantum Dynamics on Complex Hilbert Spaces.Matthew A. Graydon - 2013 - Foundations of Physics 43 (5):656-664.
References found in this work
Going Beyond Bell's Theorem.Daniel M. Greenberger, Michael A. Horne & Anton Zeilenger - 1989 - In Menas Kafatos (ed.), Bell’s Theorem, Quantum Theory and Conceptions of the Universe. Kluwer Academic Publishers. pp. 69--72.
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