Discrete-Time Quantum Walk on Multilayer Networks

Mahesh N. Jayakody; Priodyuti Pradhan; Dana Ben Porath; Eliahu Cohen

doi:10.3390/e25121610

Discrete-Time Quantum Walk on Multilayer Networks

Mahesh N. Jayakody
, Priodyuti Pradhan
, Dana Ben Porath
, Eliahu Cohen

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

A Multilayer network is a potent platform that paves the way for the study of the interactions among entities in various networks with multiple types of relationships. This study explores the dynamics of discrete-time quantum walks on a multilayer network. We derive a recurrence formula for the coefficients of the wave function of a quantum walker on an undirected graph with a finite number of nodes. By extending this formula to include extra layers, we develop a simulation model to describe the time evolution of the quantum walker on a multilayer network. The time-averaged probability and the return probability of the quantum walker are studied with Fourier, and Grover walks on multilayer networks. Furthermore, we analyze the impact of decoherence on quantum transport, shedding light on how environmental interactions may impact the behavior of quantum walkers on multilayer network structures.

Original language	English GB
Article number	1610
Journal	Entropy
Volume	25
Issue number	12
DOIs	https://doi.org/10.3390/e25121610
State	Published - 30 Nov 2023

Keywords

decoherence
discrete-time quantum walks
multilayer network

ASJC Scopus subject areas

Information Systems
Mathematical Physics
Physics and Astronomy (miscellaneous)
General Physics and Astronomy
Electrical and Electronic Engineering

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10.3390/e25121610

Cite this

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title = "Discrete-Time Quantum Walk on Multilayer Networks",

abstract = "A Multilayer network is a potent platform that paves the way for the study of the interactions among entities in various networks with multiple types of relationships. This study explores the dynamics of discrete-time quantum walks on a multilayer network. We derive a recurrence formula for the coefficients of the wave function of a quantum walker on an undirected graph with a finite number of nodes. By extending this formula to include extra layers, we develop a simulation model to describe the time evolution of the quantum walker on a multilayer network. The time-averaged probability and the return probability of the quantum walker are studied with Fourier, and Grover walks on multilayer networks. Furthermore, we analyze the impact of decoherence on quantum transport, shedding light on how environmental interactions may impact the behavior of quantum walkers on multilayer network structures.",

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doi = "10.3390/e25121610",

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AU - Jayakody, Mahesh N.

AU - Pradhan, Priodyuti

AU - Ben Porath, Dana

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Y1 - 2023/11/30

N2 - A Multilayer network is a potent platform that paves the way for the study of the interactions among entities in various networks with multiple types of relationships. This study explores the dynamics of discrete-time quantum walks on a multilayer network. We derive a recurrence formula for the coefficients of the wave function of a quantum walker on an undirected graph with a finite number of nodes. By extending this formula to include extra layers, we develop a simulation model to describe the time evolution of the quantum walker on a multilayer network. The time-averaged probability and the return probability of the quantum walker are studied with Fourier, and Grover walks on multilayer networks. Furthermore, we analyze the impact of decoherence on quantum transport, shedding light on how environmental interactions may impact the behavior of quantum walkers on multilayer network structures.

AB - A Multilayer network is a potent platform that paves the way for the study of the interactions among entities in various networks with multiple types of relationships. This study explores the dynamics of discrete-time quantum walks on a multilayer network. We derive a recurrence formula for the coefficients of the wave function of a quantum walker on an undirected graph with a finite number of nodes. By extending this formula to include extra layers, we develop a simulation model to describe the time evolution of the quantum walker on a multilayer network. The time-averaged probability and the return probability of the quantum walker are studied with Fourier, and Grover walks on multilayer networks. Furthermore, we analyze the impact of decoherence on quantum transport, shedding light on how environmental interactions may impact the behavior of quantum walkers on multilayer network structures.

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KW - discrete-time quantum walks

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DO - 10.3390/e25121610

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JO - Entropy

JF - Entropy

IS - 12

M1 - 1610

ER -

Discrete-Time Quantum Walk on Multilayer Networks

Abstract

Keywords

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