%0 Book Section %1 statphys23_0685 %A Nogawa, T. %A Nemoto, K. %A Yoshino, H. %B Abstract Book of the XXIII IUPAP International Conference on Statistical Physics %C Genova, Italy %D 2007 %E Pietronero, Luciano %E Loreto, Vittorio %E Zapperi, Stefano %K dynamics field glassy non-equilibrium random relaxation statphys23 topic-9 %T Non-equilibrium relaxation dynamics in two and three dimensional random-field XY model %U http://st23.statphys23.org/webservices/abstract/preview_pop.php?ID_PAPER=685 %X Glassy dynamics in random field systems is an important open problem in studies of disordered systems. We study numerically relaxation dynamics of two and three dimensional random-field XY model from ordered initial condition by solving Langevin equation. Roughness of the system develops with time by both thermal noise and quenched randomness up to larger wavelengths as the time increases. We analyzed the structure factor in detail and found compact scaling laws describing three distinct time regimes and crossover between them. We found the short time regime corresponding to length scales smaller than the Larkin length $L_c$ is well described by the Larkin model which predicts a power law growth of the domain size $L(t)$. The longer time behavior corresponding to length scales larger than $L_c$ exhibits a random manifold regime with slower growth of $L(t)$. The growth of $L(t)$ and thus the roughness is terminated eventually at some equilibrium correlation length $\xi$ when the random field is sufficiently strong.

@incollection{statphys23_0685, abstract = {Glassy dynamics in random field systems is an important open problem in studies of disordered systems. We study numerically relaxation dynamics of two and three dimensional random-field XY model from ordered initial condition by solving Langevin equation. Roughness of the system develops with time by both thermal noise and quenched randomness up to larger wavelengths as the time increases. We analyzed the structure factor in detail and found compact scaling laws describing three distinct time regimes and crossover between them. We found the short time regime corresponding to length scales smaller than the Larkin length $L_c$ is well described by the Larkin model which predicts a power law growth of the domain size $L(t)$. The longer time behavior corresponding to length scales larger than $L_c$ exhibits a random manifold regime with slower growth of $L(t)$. The growth of $L(t)$ and thus the roughness is terminated eventually at some equilibrium correlation length $\xi$ when the random field is sufficiently strong.}, added-at = {2007-06-20T10:16:09.000+0200}, address = {Genova, Italy}, author = {Nogawa, T. and Nemoto, K. and Yoshino, H.}, biburl = {https://www.bibsonomy.org/bibtex/2a0216c6f5ecf1918d7b3d78d517e84a3/statphys23}, booktitle = {Abstract Book of the XXIII IUPAP International Conference on Statistical Physics}, editor = {Pietronero, Luciano and Loreto, Vittorio and Zapperi, Stefano}, interhash = {fe2314181c2ee2e73323c3a39075848c}, intrahash = {a0216c6f5ecf1918d7b3d78d517e84a3}, keywords = {dynamics field glassy non-equilibrium random relaxation statphys23 topic-9}, month = {9-13 July}, timestamp = {2007-06-20T10:16:27.000+0200}, title = {Non-equilibrium relaxation dynamics in two and three dimensional random-field XY model}, url = {http://st23.statphys23.org/webservices/abstract/preview_pop.php?ID_PAPER=685}, year = 2007 }