# Effective dynamics in an asymmetric death-branching process

**Authors:** Pegah Torkaman, Farhad H. Jafarpour

arXiv: 1906.08630 · 2019-06-21

## TL;DR

This paper investigates the activity fluctuations and dynamical phase transitions in an asymmetric death-branching process, revealing long-range effective interactions between shock fronts that explain the hierarchy of phase transitions.

## Contribution

It introduces a detailed analysis of the high-activity regime, demonstrating the role of long-range interactions and shock fronts in the dynamical phase transitions.

## Key findings

- Dynamical phase transitions occur in the high-activity region.
- Effective interactions are long-range and involve shock fronts.
- Hierarchy of phase transitions is explained by these effective interactions.

## Abstract

In this paper we study activity fluctuations in an asymmetric death-branching process in one-dimension. The model, which is a variant of the asymmetric Glauber model, has already been studied in [12]. It is known that in the low-activity region i.e. below the typical activity in the steady-state, the dynamical free energy of the system can be calculated exactly. However, the behavior of the system in the high-activity region is different and more interesting. The system undergoes a series of dynamical phase transitions. In present work we justify the hierarchy of dynamical phase transitions in terms of effective interactions in the system. It turns out that the effective interactions are long-range and that they can be described in terms of interactions between repelling shock fronts.

## Full text

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## Figures

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## References

20 references — full list in the complete paper: https://tomesphere.com/paper/1906.08630/full.md

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Source: https://tomesphere.com/paper/1906.08630