Study of hysteresis in the ferromagnetic random field 3-state clock model in two and three dimensional periodic lattices at zero temperature and in the presence of dilution and an absorbing state

Elisheba  Syiem; Regenel Son Kharwanlang

doi:10.4279/pip.150003

Study of hysteresis in the ferromagnetic random field 3-state clock model in two and three dimensional periodic lattices at zero temperature and in the presence of dilution and an absorbing state

Authors

Elisheba Syiem Department of Basic Sciences and Social Sciences, North Eastern Hill University, Shillong-22, India.
Regenel Son Kharwanlang Department of Basic Sciences and Social Sciences, North Eastern Hill University, Shillong-22, India.

DOI:

https://doi.org/10.4279/pip.150003

Keywords:

Hysteresis, quenched random fields, 3-state clock model, absorbing state

Abstract

We numerically study hysteresis in the ferromagnetic random field 3-state clock model in two and three dimensional periodic lattices at zero temperature and in the zero frequency limit of the driving field. The on-site quenched disorders are continuous and are drawn from
a uniform distribution. We numerically analyzed the effects of disorder on the dynamics of the model and hence on the shape of the hysteresis loops. We also study the model in the presence of dilution and an absorbing state.

Jumps in magnetization in 3D lattice in increasing field for J = 0.1 (violet), J = 0.15 L = 1000.

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Published

2023-06-16

How to Cite

Syiem, E. ., & Kharwanlang, R. S. (2023). Study of hysteresis in the ferromagnetic random field 3-state clock model in two and three dimensional periodic lattices at zero temperature and in the presence of dilution and an absorbing state. Papers in Physics, 15, 150003. https://doi.org/10.4279/pip.150003

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