Continuous-time quantum walk describes the propagation of a quantum particle (or an excitation) evolving continuously in time on a graph. As such, it provides a natural framework for modeling transport processes, e.g., in light-harvesting systems. In particular, the transport properties strongly depend on the initial state and specific features of the graph under investigation. In this paper, we address the role of graph topology, and investigate the transport properties of graphs with different regularity, symmetry, and connectivity. We neglect disorder and decoherence, and assume a single trap vertex that is accountable for the loss processes. In particular, for each graph, we analytically determine the subspace of states having maximum transport efficiency. Our results provide a set of benchmarks for environment-assisted quantum transport, and suggest that connectivity is a poor indicator for transport efficiency. Indeed, we observe some specific correlations between transport efficiency and connectivity for certain graphs, but, in general, they are uncorrelated.

Transport Efficiency of Continuous-Time Quantum Walks on Graphs / Razzoli, Luca; Paris, Matteo G. A.; Bordone, Paolo. - In: ENTROPY. - ISSN 1099-4300. - 23:1(2021), pp. 1-25. [10.3390/e23010085]

Transport Efficiency of Continuous-Time Quantum Walks on Graphs

Luca Razzoli
Membro del Collaboration Group
;
Paolo Bordone
Membro del Collaboration Group
2021

Abstract

Continuous-time quantum walk describes the propagation of a quantum particle (or an excitation) evolving continuously in time on a graph. As such, it provides a natural framework for modeling transport processes, e.g., in light-harvesting systems. In particular, the transport properties strongly depend on the initial state and specific features of the graph under investigation. In this paper, we address the role of graph topology, and investigate the transport properties of graphs with different regularity, symmetry, and connectivity. We neglect disorder and decoherence, and assume a single trap vertex that is accountable for the loss processes. In particular, for each graph, we analytically determine the subspace of states having maximum transport efficiency. Our results provide a set of benchmarks for environment-assisted quantum transport, and suggest that connectivity is a poor indicator for transport efficiency. Indeed, we observe some specific correlations between transport efficiency and connectivity for certain graphs, but, in general, they are uncorrelated.
2021
9-gen-2021
23
1
1
25
Transport Efficiency of Continuous-Time Quantum Walks on Graphs / Razzoli, Luca; Paris, Matteo G. A.; Bordone, Paolo. - In: ENTROPY. - ISSN 1099-4300. - 23:1(2021), pp. 1-25. [10.3390/e23010085]
Razzoli, Luca; Paris, Matteo G. A.; Bordone, Paolo
File in questo prodotto:
File Dimensione Formato  
entropy-23-00085.pdf

Open access

Tipologia: Versione pubblicata dall'editore
Dimensione 609.56 kB
Formato Adobe PDF
609.56 kB Adobe PDF Visualizza/Apri
Pubblicazioni consigliate

Licenza Creative Commons
I metadati presenti in IRIS UNIMORE sono rilasciati con licenza Creative Commons CC0 1.0 Universal, mentre i file delle pubblicazioni sono rilasciati con licenza Attribuzione 4.0 Internazionale (CC BY 4.0), salvo diversa indicazione.
In caso di violazione di copyright, contattare Supporto Iris

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1231687
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 12
  • ???jsp.display-item.citation.isi??? 12
social impact