Partial orbits of quantum gates and full three-particle entanglement
F Holik, M Losada, H Freytes, A Plastino… - Quantum Information …, 2021 - Springer
F Holik, M Losada, H Freytes, A Plastino, G Sergioli
Quantum Information Processing, 2021•SpringerWe introduce the notion of partial orbit for a given set of elementary quantum gates, and we
study the action of different sets of gates on an initially three-particle disentangled state. We
analyze the entanglement of the resulting quantum states by appealing to the violation of
Svetlichny inequality. We find that the violation values are concentrated on specific regions.
This constitutes evidence for the existence of a structure, which is quite different from that of
a randomly generated (using the Haar measure) set of gates. In turn, this fact highlights the …
study the action of different sets of gates on an initially three-particle disentangled state. We
analyze the entanglement of the resulting quantum states by appealing to the violation of
Svetlichny inequality. We find that the violation values are concentrated on specific regions.
This constitutes evidence for the existence of a structure, which is quite different from that of
a randomly generated (using the Haar measure) set of gates. In turn, this fact highlights the …
Abstract
We introduce the notion of partial orbit for a given set of elementary quantum gates, and we study the action of different sets of gates on an initially three-particle disentangled state. We analyze the entanglement of the resulting quantum states by appealing to the violation of Svetlichny inequality. We find that the violation values are concentrated on specific regions. This constitutes evidence for the existence of a structure, which is quite different from that of a randomly generated (using the Haar measure) set of gates. In turn, this fact highlights the relevance of studying the physical properties of the partial orbits associated with different sets of elementary gates.
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