Physics – Condensed Matter – Disordered Systems and Neural Networks
Scientific paper
2010-11-07
Journal of Physics: Condensed Matter, 23 366003 (2011)
Physics
Condensed Matter
Disordered Systems and Neural Networks
Scientific paper
Existing theories explain spin glass transition in terms of a phase transition and order parameters, and assume the existence of a distinct spin glass phase. In addition to problems related to clarifying the nature of this phase, the common challenge is to explain profound dynamic effects. Here, we propose that the main experimental results of spin glass transition can be understood in an entirely dynamic picture, without a reference to a distinct spin glass phase, phase transition and order parameters. In this theory, the susceptibility cusp at the glass transition temperature is due to the dynamic crossover between the high-temperature relaxational and low-temperature spin wave, or elastic, regime. The crossover takes place when $t=\tau$, where $t$ is observation time and $\tau$ is relaxation time. Time-dependent effects, inconsistent with the phase transition approach, and the logarithmic increase of $T_g$ with field frequency in particular, originate as the immediate consequence of the proposed picture. We comment on the behavior of non-linear susceptibility. In our discussion, we explore similarities between the spin and structural glass transitions.
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