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Bibliographic Details
Main Authors: Kumar, Satish, An, Nguyen Ba, Pathak, Anirban
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.08712
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author Kumar, Satish
An, Nguyen Ba
Pathak, Anirban
author_facet Kumar, Satish
An, Nguyen Ba
Pathak, Anirban
contents The existing notion of the shared entangled state-assisted remote preparation of unitary operator (equivalently the existing notion of quantum remote control) using local operation and classical communication is generalized to a scenario where under the control of a supervisor two users can jointly implement arbitrary unitaries (one unknown unitary operation by each or equivalently a single unitary decomposed into two unitaries of the same dimension and given to two users) on an unknown quantum state available with a geographically separated user. It is explicitly shown that the task can be performed using a four-qubit hyperentangled state, which is entangled simultaneously in both spatial and polarization degrees of freedom of photons. The proposed protocol which can be viewed as primitive for distributed photonic quantum computing is further generalized to the case that drops the restrictions on the number of controllers and the number of parties performing unitaries and allows both the numbers to be arbitrary. It is also shown that all the existing variants of quantum remote control schemes can be obtained as special cases of the present scheme.
format Preprint
id arxiv_https___arxiv_org_abs_2403_08712
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Controlled-Joint Remote Implementation of Operators and its Possible Generalization
Kumar, Satish
An, Nguyen Ba
Pathak, Anirban
Quantum Physics
The existing notion of the shared entangled state-assisted remote preparation of unitary operator (equivalently the existing notion of quantum remote control) using local operation and classical communication is generalized to a scenario where under the control of a supervisor two users can jointly implement arbitrary unitaries (one unknown unitary operation by each or equivalently a single unitary decomposed into two unitaries of the same dimension and given to two users) on an unknown quantum state available with a geographically separated user. It is explicitly shown that the task can be performed using a four-qubit hyperentangled state, which is entangled simultaneously in both spatial and polarization degrees of freedom of photons. The proposed protocol which can be viewed as primitive for distributed photonic quantum computing is further generalized to the case that drops the restrictions on the number of controllers and the number of parties performing unitaries and allows both the numbers to be arbitrary. It is also shown that all the existing variants of quantum remote control schemes can be obtained as special cases of the present scheme.
title Controlled-Joint Remote Implementation of Operators and its Possible Generalization
topic Quantum Physics
url https://arxiv.org/abs/2403.08712