Deviations from Full Aging in Numerical Spin Glass Models

Details Deviations from Full Aging in Numerical Spin Glass Models Deviations from Full Aging in Numerical Spin Glass Models

2003-10-17

arxiv.org/abs/cond-mat/0310416v1

Physics

Condensed Matter

Statistical Mechanics

5 pages, 2 figures

Scientific paper

The deviations from full or pure aging behavior, i.e. perfect $t/t_w$ scaling of the correlation and response functions of aging glassy systems, are not well understood theoretically. Recent experiments of Rodriguez et al. (Phys. Rev. Lett. 91, 037203 (2003)) have shown that full aging applies to the thermoremanent magnetization in the limit of infinite cooling rate during the initial quench. In numerical models, instantaneous thermal quenches can be--and usually are--applied. This has motivated the present numerical investigations of the aging behavior of Edwards-Anderson Ising spin glass models with both short- and long-range Gaussian interactions, respectively. We sample the distribution of residence time $t$ in suitably defined metastable valleys entered at age $t_w$, finding that the deviations from $t/t_w$ scaling are small and decrease systematically as the system size grows and/or the temperature decreases. Finally, the connection between this behavior and the scaling of the correlation function itself is discussed.

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