Dynamical studies of the response function in a Spin Glass

TL;DR

This study investigates the non-equilibrium response of a spin glass, revealing that its response is primarily influenced by the thermal history near the measurement temperature, emphasizing the importance of controlled cooling.

Contribution

It demonstrates that the spin glass response depends only on local thermal history, highlighting the significance of cooling procedures in non-equilibrium spin glass studies.

Findings

Response function governed by local thermal history

Thermal history outside narrow region is irrelevant

Cooling procedures crucial for reproducible results

Abstract

Experiments on the time dependence of the response function of a Ag(11 at%Mn) spin glass at a temperature below the zero field spin glass temperature are used to explore the non-equilibrium nature of the spin glass phase. It is found that the response function is only governed by the thermal history in the very neighbourhood of the actual measurement temperature. The thermal history outside this narrow region is irrelevant to the measured response. A result that implies that the thermal history during cooling (cooling rate, wait times etc.) is imprinted in the spin structure and is always retained when any higher temperature is recovered. The observations are discussed in the light of a real space droplet/domain phenomenology. The results also emphasise the importance of using controlled cooling procedures to acquire interpretable and reproducible experimental results on the non-equilibrium dynamics in spin glasses.