Author: Mello, Isys F.; Squillante, Lucas; Gomes, Gabriel O.; Seridonio, Antonio C.; de Souza, Mariano
Title: Epidemics, the Ising-model and percolation theory: A comprehensive review focussed on Covid-19 Cord-id: k38umtj5 Document date: 2021_3_29
ID: k38umtj5
Snippet: We revisit well-established concepts of epidemiology, the Ising-model, and percolation theory. Also, we employ a spin [Formula: see text] = 1/2 Ising-like model and a (logistic) Fermi-Dirac-like function to describe the spread of Covid-19. Our analysis show that: (i) in many cases the epidemic curve can be described by a Gaussian-type function; (ii) the temporal evolution of the accumulative number of infections and fatalities follow a logistic function; (iii) the key role played by the quaranti
Document: We revisit well-established concepts of epidemiology, the Ising-model, and percolation theory. Also, we employ a spin [Formula: see text] = 1/2 Ising-like model and a (logistic) Fermi-Dirac-like function to describe the spread of Covid-19. Our analysis show that: (i) in many cases the epidemic curve can be described by a Gaussian-type function; (ii) the temporal evolution of the accumulative number of infections and fatalities follow a logistic function; (iii) the key role played by the quarantine to block the spread of Covid-19 in terms of an interacting parameter between people. In the frame of elementary percolation theory, we show that: (i) the percolation probability can be associated with the probability of a person being infected with Covid-19; (ii) the concepts of blocked and non-blocked connections can be associated, respectively, with a person respecting or not the social distancing. Yet, we make a connection between epidemiological concepts and well-established concepts in condensed matter Physics.
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