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Quantum Algorithms

Fermionic computation is non-local tomographic and violates monogamy of entanglement

arXiv
Authors: Giacomo Mauro D'Ariano, Franco Manessi, Paolo Perinotti, Alessandro Tosini

Year

2013

Paper ID

33452

Status

Preprint

Abstract Read

~2 min

Abstract Words

88

Citations

N/A

Abstract

We show that the computational model based on local Fermionic modes in place of qubits does not satisfy local tomography and monogamy of entanglement, and has mixed states with maximal entanglement of formation. These features directly follow from the parity conservation corresponding to the parity superselection rule. We generalize quantum superselection rules to general probabilistic theories as sets of linear constraints on the convex set of states. We then provide a link between the cardinality of the superselection rule and the degree of holism of the resulting theory.

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  • We show that the computational model based on local Fermionic modes in place of qubits does not satisfy local tomography and monogamy of entanglement, and has mixed states with...

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