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CELLULAR AUTOMATON SUPERCOLLIDERS

GENARO J. MARTÍNEZInstituto de Ciencias Nucleares and Centro de Ciencias de la Complejidad, Universidad Nacional Autónoma de México, MéxicoANDREW ADAMATZKYInstituto de Ciencias Nucleares and Centro de Ciencias de la Complejidad, Universidad Nacional Autónoma de México, MéxicoCHRISTOPHER R. STEPHENSInstituto de Ciencias Nucleares and Centro de Ciencias de la Complejidad, Universidad Nacional Autónoma de México, MéxicoALEJANDRO F. HOEFLICHInstituto de Ciencias Nucleares and Centro de Ciencias de la Complejidad, Universidad Nacional Autónoma de México, México
2011en
ABI

Abstract

Gliders in one-dimensional cellular automata are compact groups of non-quiescent and non-ether patterns (ether represents a periodic background) translating along automaton lattice. They are cellular automaton analogous of localizations or quasi-local collective excitations traveling in a spatially extended nonlinear medium. They can be considered as binary strings or symbols traveling along a one-dimensional ring, interacting with each other and changing their states, or symbolic values, as a result of interactions. We analyze what types of interaction occur between gliders traveling on a cellular automaton "cyclotron" and build a catalog of the most common reactions. We demonstrate that collisions between gliders emulate the basic types of interaction that occur between localizations in nonlinear media: fusion, elastic collision, and soliton-like collision. Computational outcomes of a swarm of gliders circling on a one-dimensional torus are analyzed via implementation of cyclic tag systems.

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