Critical behavior of the random-field Ising model

Gofman, Misha; Adler, Joan; Aharony, Amnon; Harris, A. B.; Schwartz, Moshe

doi:10.1103/physrevb.53.6362

Cited by 65 publications

(66 citation statements)

References 77 publications

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“…This latter estimate suggests, through the relationη = 4−γ/ν, the valueη = 1.026(2) for the critical exponent that describes the power-law decay of the disconnected correlation function of the RFIM. Overall, both values of β/ν and γ/ν are refinements of previously obtained estimates (see Tab. 1 for details and a direct comparison among previous works), and moreover, the value ofη is in agreement with the valueη = 1, that can be predicted from elementary considerations in the ordered phase [56] and the results of high-temperature series expansions of the RFIM [25,26].…”

Section: Magnetic Exponent Ratiossupporting

confidence: 72%

“…The criteria for determining the order of the phase transition and its dependence on the field distribution have been discussed throughout the years [15][16][17][18][19][20][21][22][23][24][25][26]. In fact, different results have been proposed for different field distributions, like the existence of a tricritical point at the strong disorder regime of the system, present only in the bimodal case [15][16][17]20].…”

Section: Introductionmentioning

confidence: 99%

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Critical aspects of the random-field Ising model

et al. 2013

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Abstract.We investigate the critical behavior of the three-dimensional random-field Ising model (RFIM) with a Gaussian field distribution at zero temperature. By implementing a computational approach that maps the ground-state of the RFIM to the maximum-flow optimization problem of a network, we simulate large ensembles of disorder realizations of the model for a broad range of values of the disorder strength h and system sizes V = L 3 , with L ≤ 156. Our averaging procedure outcomes previous studies of the model, increasing the sampling of ground states by a factor of 10 3 . Using well-established finitesize scaling schemes, the fourth-order's Binder cumulant, and the sample-to-sample fluctuations of various thermodynamic quantities, we provide high-accuracy estimates for the critical field hc, as well as the critical exponents ν, β/ν, andγ/ν of the correlation length, order parameter, and disconnected susceptibility, respectively. Moreover, using properly defined noise to signal ratios, we depict the variation of the self-averaging property of the model, by crossing the phase boundary into the ordered phase. Finally, we discuss the controversial issue of the specific heat based on a scaling analysis of the bond energy, providing evidence that its critical exponent α ≈ 0 − .

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Section: Magnetic Exponent Ratiossupporting

confidence: 72%

Section: Introductionmentioning

confidence: 99%

Critical aspects of the random-field Ising model

et al. 2013

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“…Even the simplest problem, random-field Ising model, 32 is far from being completely understood. Recent results 84,85,46 make it hopeful that a satisfactory theory of phase transitions in the random-field Ising model will be developed soon. 2) where the const = max q D{h}|dP (h)/dh(q)| 2 /P (h).…”

Section: Discussionmentioning

confidence: 99%

Quasi-Long Range Order in Glass States of Impure Liquid Crystals, Magnets, and Superconductors

Feldman

2001

Int. J. Mod. Phys. B

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We consider glass states of several disordered systems: vortices in impure superconductors, amorphous magnets, and nematic liquid crystals in random porous media. All these systems can be described by the random-field or random-anisotropy O(N ) model. Even arbitrarily weak disorder destroys long range order in the O(N ) model. We demonstrate that at weak disorder and low temperatures quasi-long range order emerges. In quasilong-range-ordered phases the correlation length is infinite and correlation functions obey power dependencies on the distance. In pure systems quasi-long range order is possible only in the lower critical dimension and only in the case of Abelian symmetry. In the presence of disorder this type of ordering turns out to be more common. It exists in a range of dimensions and is not prohibited by non-Abelian symmetries.

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“…The original experimental studies of the RFIM followed a proposal by Imry and Ma, 12 in which a site-diluted Ising antiferromagnet in a large static magnetic field forms a realization of the RFIM Hamiltonian. While this approach proved fruitful for studying quantities such as the thermodynamic critical exponents 13,14 and correlation lengths, 15 the lack of a net long wavelength moment in antiferromagnets limits the potential probes and hence the set of physical questions that can be addressed. Uniaxial relaxor ferroelectrics were subsequently shown to be realizations of the RFIM 16,17 and similarly have provided insights into the critical and scaling behavior.…”

Section: Introductionmentioning

confidence: 99%

Barkhausen noise in the random field Ising magnetNd2Fe14B

Silevitch

Dahmen

et al. 2015

Phys. Rev. B

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With sintered needles aligned and a magnetic field applied transverse to its easy axis, the rareearth ferromagnet Nd2Fe14B becomes a room-temperature realization of the Random Field Ising Model. The transverse field tunes the pinning potential of the magnetic domains in a continuous fashion. We study the magnetic domain reversal and avalanche dynamics between liquid helium and room temperatures at a series of transverse fields using a Barkhausen noise technique. The avalanche size and energy distributions follow power-law behavior with a cutoff dependent on the pinning strength dialed in by the transverse field, consistent with theoretical predictions for Barkhausen avalanches in disordered materials. A scaling analysis reveals two regimes of behavior: one at low temperature and high transverse field, where the dynamics are governed by the randomness, and the second at high temperature and low transverse field where thermal fluctuations dominate the dynamics.

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Critical behavior of the random-field Ising model

Cited by 65 publications

References 77 publications

Critical aspects of the random-field Ising model

Critical aspects of the random-field Ising model

Quasi-Long Range Order in Glass States of Impure Liquid Crystals, Magnets, and Superconductors

Barkhausen noise in the random field Ising magnetNd2Fe14B

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