Absorbing-state phase transitions in fixed-energy sandpiles

Absorbing-state phase transitions in fixed-energy sandpiles

We study sandpile models as closed systems, with the conserved energy density zeta playing the role of an external parameter. The critical energy density zeta (c) marks a nonequilibrium phase transition between active and absorbing states. Several fixed-energy sandpiles are studied in extensive simu...

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Online Access:http://hdl.handle.net/2047/d20002164
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spelling ndltd-NEU--neu-3313692016-04-25T16:14:29ZAbsorbing-state phase transitions in fixed-energy sandpilesWe study sandpile models as closed systems, with the conserved energy density zeta playing the role of an external parameter. The critical energy density zeta (c) marks a nonequilibrium phase transition between active and absorbing states. Several fixed-energy sandpiles are studied in extensive simulations of stationary and transient properties, as well as the dynamics of roughening in an interface-height representation. Our primary goal is to identify the universality classes of such models, in hopes of assessing the validity of two recently proposed approaches to sandpiles: a phenomenological continuum Langevin description with absorbing states, and a mapping to driven interface dynamics in random media.http://hdl.handle.net/2047/d20002164
collection NDLTD
sources NDLTD
description We study sandpile models as closed systems, with the conserved energy density zeta playing the role of an external parameter. The critical energy density zeta (c) marks a nonequilibrium phase transition between active and absorbing states. Several fixed-energy sandpiles are studied in extensive simulations of stationary and transient properties, as well as the dynamics of roughening in an interface-height representation. Our primary goal is to identify the universality classes of such models, in hopes of assessing the validity of two recently proposed approaches to sandpiles: a phenomenological continuum Langevin description with absorbing states, and a mapping to driven interface dynamics in random media.
title Absorbing-state phase transitions in fixed-energy sandpiles
spellingShingle Absorbing-state phase transitions in fixed-energy sandpiles
title_short Absorbing-state phase transitions in fixed-energy sandpiles
title_full Absorbing-state phase transitions in fixed-energy sandpiles
title_fullStr Absorbing-state phase transitions in fixed-energy sandpiles
title_full_unstemmed Absorbing-state phase transitions in fixed-energy sandpiles
title_sort absorbing-state phase transitions in fixed-energy sandpiles
publishDate
url http://hdl.handle.net/2047/d20002164
_version_ 1718235748255137792

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