Abstract: We study the effect of antiferromagnetic interactions on the single spin-flip Glauber dynamics of two different one-dimensional Ising models with spin ±1. The first model is an Ising chain with antiferromagnetic exchange interaction limited to nearest neighbors and subject to an oscillating magnetic field. The system of master equations describing the time evolution of sublattice magnetizations can easily be solved within a linear field approximation and a long time limit. Resonant behavior of the magnetization as a function of temperature stochastic resonance is found, at low frequency, only when spins on opposite sublattices are uncompensated owing to different gyromagnetic factors i.e., in the presence of a ferrimagnetic short range order. The second model is the axial next-nearest-neighbor Ising ANNNI chain, where an antiferromagnetic exchange between next-nearest neighbors is assumed to compete with a nearest-neighbor exchange interaction of either sign. The long time response of the model to a weak, oscillating magnetic field is investigated in the framework of a decoupling approximation for three-spin correlation functions, which is required to close the system of master equations. The calculation, within such an approximate theoretical scheme, of the dynamic critical exponent z, defined as 1/1/z where is the longest relaxation time and is the correlation length of the chain, suggests that the T=0 single spin-flip Glauber dynamics of the ANNNI chain is in a different universality class than that of the unfrustrated Ising chain.

Effect of antiferromagnetic exchange interaction on the Glauber dynamics of one-dimensional Ising model / M.G.Pini; A.Rettori. - In: PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS. - ISSN 1098-0121. - STAMPA. - 76:(2007), pp. 064407-1-064407-13.

Effect of antiferromagnetic exchange interaction on the Glauber dynamics of one-dimensional Ising model

RETTORI, ANGELO
2007

Abstract

Abstract: We study the effect of antiferromagnetic interactions on the single spin-flip Glauber dynamics of two different one-dimensional Ising models with spin ±1. The first model is an Ising chain with antiferromagnetic exchange interaction limited to nearest neighbors and subject to an oscillating magnetic field. The system of master equations describing the time evolution of sublattice magnetizations can easily be solved within a linear field approximation and a long time limit. Resonant behavior of the magnetization as a function of temperature stochastic resonance is found, at low frequency, only when spins on opposite sublattices are uncompensated owing to different gyromagnetic factors i.e., in the presence of a ferrimagnetic short range order. The second model is the axial next-nearest-neighbor Ising ANNNI chain, where an antiferromagnetic exchange between next-nearest neighbors is assumed to compete with a nearest-neighbor exchange interaction of either sign. The long time response of the model to a weak, oscillating magnetic field is investigated in the framework of a decoupling approximation for three-spin correlation functions, which is required to close the system of master equations. The calculation, within such an approximate theoretical scheme, of the dynamic critical exponent z, defined as 1/1/z where is the longest relaxation time and is the correlation length of the chain, suggests that the T=0 single spin-flip Glauber dynamics of the ANNNI chain is in a different universality class than that of the unfrustrated Ising chain.
2007
76
064407-1
064407-13
M.G.Pini; A.Rettori
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/336752
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