- AutorIn
- Lorenzo Taggi
- Titel
- Absorptionsphasenubergang für Irrfahrten mit Aktivierung und stochastische Zelluläre Automaten
- Untertitel
- Absorptionsphasenubergang für Irrfahrten mit Aktivierung undstochastische Zelluläre Automaten
- Zitierfähige Url:
- https://nbn-resolving.org/urn:nbn:de:bsz:15-qucosa-208644
- Datum der Einreichung
- 15.04.2015
- Datum der Verteidigung
- 15.09.2015
- Abstract (EN)
- This thesis studies two Markov processes describing the evolution of a system of many interacting random components. These processes undergo an absorbing-state phase transition, i.e., as one variates the parameter values, the process exhibits a transition from a convergence regime to one of the absorbing-states to an active regime. In Chapter 2 we study Activated Random Walk, which is an interacting particle system where the particles can be of two types and their number is conserved. Firstly, we provide a new lower bound for the critical density on Z as a function of the jump distribution and of the sleeping rate and we prove that the critical density is not a constant function of the jump distribution. Secondly, we prove that on Zd in the case of biased jump distribution the critical density is strictly less than one, provided that the sleeping rate is small enough. This answers a question that has been asked by Dickman, Rolla, Sidoravicius [9, 28] in the case of biased jump distribution. Our results have been presented in [33]. In Chapter 3 we study a class of probabilistic cellular automata which are related by a natural coupling to a special type of oriented percolation model. Firstly, we consider the process on a finite torus of size n, which is ergodic for any parameter value. By employing dynamic-renormalization techniques, we prove that the average absorption time grows exponentially (resp. logarithmically) with n when the model on Z is in the active (resp. absorbing) regime. This answers a question that has been asked by Toom [37]. Secondly, we study how the neighbourhood of the model affects the critical probability for the process on Z. We provide a lower bound for the critical probability as a function of the neighbourhood and we show that our estimates are sharp by comparing them with our numerical estimates. Our results have been presented in [34, 35].
- Freie Schlagwörter (EN)
- Interacting Particle System, Random Walks
- Klassifikation (DDC)
- 510
- GutachterIn
- Prof. Artem Sapozhnikov
- Den akademischen Grad verleihende / prüfende Institution
- Max Planck Institute for Mathematics in the Sciences, Leipzig
- URN Qucosa
- urn:nbn:de:bsz:15-qucosa-208644
- Veröffentlichungsdatum Qucosa
- 16.08.2016
- Dokumenttyp
- Dissertation
- Sprache des Dokumentes
- Englisch