Yan Quintino scite author profile

Yan Quintino

4Publications

23Citation Statements Received

41Citation Statements Given

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114

Affiliations

Federal Institute of Education, Science and Technology Alagoas

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Universality classes of the absorbing state transition in a system with interacting static and diffusive populations

et al. 2009

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In this work, we study the critical behavior of a one-dimensional model that mimics the propagation of an epidemic process mediated by a density of diffusive individuals which can infect a static population upon contact. We simulate the above model on linear chains to determine the critical density of the diffusive population, above which the system achieves a statistically stationary active state, as a function of two relevant parameters related to the average lifetimes of the diffusive and nondiffusive populations. A finite-size scaling analysis is employed to determine the order parameter and correlation length critical exponents. For highrecovery rates, the critical exponents are compatible with the usual directed percolation universality class. However, in the opposite regime of low-recovery rates, the diffusion is a relevant mechanism responsible for the propagation of the disease and the absorbing state phase transition is governed by a distinct set of critical exponents.

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Finite-size scaling analysis of the critical behavior of a general epidemic process in 2D

Argolo

Quintino

Gleria

et al. 2011

Physica A: Statistical Mechanics and its Applications

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a b s t r a c tWe investigate the critical behavior of a stochastic lattice model describing a General Epidemic Process. By means of a Monte Carlo procedure, we simulate the model on a regular square lattice and follow the spreading of an epidemic process with immunization. A finite size scaling analysis is employed to determine the critical point as well as some critical exponents. We show that the usual scaling analysis of the order parameter moment ratio does not provide an accurate estimate of the critical point. Precise estimates of the critical quantities are obtained from data of the order parameter variation rate and its fluctuations. Our numerical results corroborate that this model belongs to the dynamic isotropic percolation universality class. We also check the validity of the hyperscaling relation and present data collapse curves which reinforce the accuracy of the estimated critical parameters.

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Vanishing order-parameter critical fluctuations of an absorbing-state transition driven by long-range interactions

et al. 2013

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Critical short-time dynamics in a system with interacting static and diffusive populations

Argolo

Quintino²,

Gleria³

et al. 2012

Phys. Rev. E

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We study the critical short-time dynamical behavior of a one-dimensional model where diffusive individuals can infect a static population upon contact. The model presents an absorbing phase transition from an active to an inactive state. Previous calculations of the critical exponents based on quasistationary quantities have indicated an unusual crossover from the directed percolation to the diffusive contact process universality classes. Here we show that the critical exponents governing the slow short-time dynamic evolution of several relevant quantities, including the order parameter, its relative fluctuations, and correlation function, reinforce the lack of universality in this model. Accurate estimates show that the critical exponents are distinct in the regimes of low and high recovery rates.

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Yan Quintino

Universality classes of the absorbing state transition in a system with interacting static and diffusive populations

Finite-size scaling analysis of the critical behavior of a general epidemic process in 2D

Vanishing order-parameter critical fluctuations of an absorbing-state transition driven by long-range interactions

Critical short-time dynamics in a system with interacting static and diffusive populations

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