9 research outputs found
Comment on "Mean-field solution of structural balance dynamics in nonzero temperature"
In recent numerical and analytical studies, Rabbani {\it et al.} [Phys. Rev.
E {\bf 99}, 062302 (2019)] observed the first-order phase transition in social
triads dynamics on complete graph with nodes. With Metropolis algorithm
they found critical temperature on such graph equal to 26.2. In this comment we
extend their main observation in more compact and natural manner. In contrast
to the commented paper we estimate critical temperature for complete
graph not only with nodes but for any size of the system. We have
derived formula for critical temperature , where is the
number of graph nodes and comes from combination of
heat-bath and mean-field approximation. Our computer simulation based on
heat-bath algorithm confirm our analytical results and recover critical
temperature obtained earlier also for and for systems with other
sizes. Additionally, we have identified---not observed in commented
paper---phase of the system, where the mean value of links is zero but the
system energy is minimal since the network contains only balanced triangles
with all positive links or with two negative links. Such a phase corresponds to
dividing the set of agents into two coexisting hostile groups and it exists
only in low temperatures.Comment: 7 pages, 6 figures, 1 tabl