Your search keyword '"Alejandro P. Riascos"' showing total 2 results

1. Fractional quantum mechanics on networks: Long-range dynamics and quantum transport

Author

Alejandro P. Riascos and José L. Mateos

Subjects

Physics, Quantum technology, Fractional dynamics, Open quantum system, Quantum probability, Quantum dynamics, Quantum process, Quantum mechanics, Quantum walk, Statistical physics, Fractional quantum mechanics

Abstract

In this paper we study the quantum transport on networks with a temporal evolution governed by the fractional Schrodinger equation. We generalize the dynamics based on continuous-time quantum walks, with transitions to nearest neighbors on the network, to the fractional case that allows long-range displacements. By using the fractional Laplacian matrix of a network, we establish a formalism that combines a long-range dynamics with the quantum superposition of states; this general approach applies to any type of connected undirected networks, including regular, random, and complex networks, and can be implemented from the spectral properties of the Laplacian matrix. We study the fractional dynamics and its capacity to explore the network by means of the transition probability, the average probability of return, and global quantities that characterize the efficiency of this quantum process. As a particular case, we explore analytically these quantities for circulant networks such as rings, interacting cycles, and complete graphs.

Published

2015

2. Fractional dynamics on networks: emergence of anomalous diffusion and Lévy flights

Author

Alejandro P. Riascos and José L. Mateos

Subjects

Physics - Physics and Society, Anomalous diffusion, Mathematical analysis, Complex network, Models, Theoretical, Random walk, Fractional calculus, Diffusion, Fractional dynamics, Lévy flight, Computer Simulation, Statistical physics, Laplacian matrix, Monte Carlo Method, Eigenvalues and eigenvectors, Condensed Matter - Statistical Mechanics, Mathematics, Probability

Abstract

We introduce a formalism of fractional diffusion on networks based on a fractional Laplacian matrix that can be constructed directly from the eigenvalues and eigenvectors of the Laplacian matrix. This fractional approach allows random walks with long-range dynamics providing a general framework for anomalous diffusion and navigation, and inducing dynamically the small-world property on any network. We obtained exact results for the stationary probability distribution, the average fractional return probability and a global time, showing that the efficiency to navigate the network is greater if we use a fractional random walk in comparison to a normal random walk. For the case of a ring, we obtain exact analytical results showing that the fractional transition and return probabilities follow a long-range power-law decay, leading to the emergence of L\'evy flights on networks. Our general fractional diffusion formalism applies to regular, random and complex networks and can be implemented from the spectral properties of the Laplacian matrix, providing an important tool to analyze anomalous diffusion on networks., Comment: 8 pages, 4 figures

Published

2014