Dynamic phase transition features of the cylindrical nanowire driven by a propagating magnetic field

Vatansever, Erol

doi:10.21541/apjes.350170

Cited by 2 publications

(1 citation statement)

References 42 publications

(81 reference statements)

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“…The rodlike nanomagnets have also been investigated recently. The cylindrical magnetic nanowire driven by propagating magnetic field wave has been investigated [8] recently with extensive Monte Carlo simulation to get interesting nonequilibrium phase transition. The results of magneto-kinetic properties has been reported [9] in cylindrical Ising nanotube.…”

Section: Introductionmentioning

confidence: 99%

Rodlike Heisenberg nanomagnet driven by propagating magnetic field: Nonequilibrium phase transition

Acharyya¹

2021

Preprint

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The dynamical responses of a rodlike anisotropic Heisenberg ferromagnet irradiated by propagating magnetic field wave has been studied by Monte Carlo simulation with Metropolis single spin flip algorithm. A nonequilibrium dynamical phase transition was observed and the transition temperature was obtained from the peak position of the variance of the dynamic order parameter. The transition was found to occur at lower temperature for the higher values of the amplitude of the propagating magnetic field wave. A comprehensive phase boundary was drawn. The phase boundary is found to be insensitive to the wavelength of the propagaing field wave. The boundary encloses more region of ordered phase for stronger anisotropy.

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Section: Introductionmentioning

confidence: 99%

Rodlike Heisenberg nanomagnet driven by propagating magnetic field: Nonequilibrium phase transition

Acharyya¹

2021

Preprint

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Universality Class of the Nonequilibrium Phase Transition in Two-Dimensional Ising Ferromagnet Driven by Propagating Magnetic Field Wave

Halder¹,

Acharyya²

2019

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The finite size analysis of the nonequilibrium phase transition, in two dimensional Ising ferromagnet driven by plane propagating magnetic wave, is studied by Monte Carlo simulation. It is observed that the system undergoes a nonequilibrium dynamic phase transition from a high temperature dynamically symmetric (propagating) phase to a low temperature dynamically symmetry-broken (pinned) phase as the system is cooled below the transition temperature. This transition temperature is determined precisely by studying the fourth order Binder Cumulant of the dynamic order parameter as a function of temperature for different system sizes (L). From the finite size analysis of dynamic order parameter (Q L ∼ L − β ν ) and the dynamic susceptibility (χ Q L ∼ L γ ν ), we have estimated the critical exponents β/ν = 0.146 ± 0.025 and γ/ν = 1.869 ± 0.135 (measured from the data read at the critical temperature obtained from Binder cumulant), and γ/ν = 1.746 ± 0.017 (measured from the peak positions of dynamic susceptibility). Our results indicate that such driven Ising ferromagnet belongs to the same universality class of the two-dimensional equilibrium Ising ferromagnet (where β/ν = 1/8 and γ/ν = 7/4), within the limits of statistical errors.

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Dynamic phase transition features of the cylindrical nanowire driven by a propagating magnetic field

Cited by 2 publications

References 42 publications

Rodlike Heisenberg nanomagnet driven by propagating magnetic field: Nonequilibrium phase transition

Rodlike Heisenberg nanomagnet driven by propagating magnetic field: Nonequilibrium phase transition

Universality Class of the Nonequilibrium Phase Transition in Two-Dimensional Ising Ferromagnet Driven by Propagating Magnetic Field Wave

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