2007
DOI: 10.1038/nphys659
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Tunable scaling behaviour observed in Barkhausen criticality of a ferromagnetic film

Abstract: A ferromagnetic material shows a sequence of discrete and jerky domain jumps, known as the Barkhausen avalanche 1,2 , in the presence of an external magnetic field. Studies of Barkhausen avalanches reveal power-law scaling behaviour that suggests an underlying criticality 3-8 , as observed in a wide variety of systems such as superconductor vortices 9 , microfractures 10 , earthquakes 11 , lung inflations 12 , mass extinctions 13 , financial markets 14 and charge-density waves 15 . The most interesting unsolve… Show more

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Cited by 85 publications
(98 citation statements)
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“…To mimic the experiments of Ruy et al [10], we simulate the system by integrating Eq. (3) numerically for a lateral system size L = 512, fixing the external force F ext to a constant value below the critical depinning force F c (above which the DW would keep moving continuously with a nonzero time-averaged velocity), and monitor the dynamics of the DW.…”
Section: Resultsmentioning
confidence: 99%
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“…To mimic the experiments of Ruy et al [10], we simulate the system by integrating Eq. (3) numerically for a lateral system size L = 512, fixing the external force F ext to a constant value below the critical depinning force F c (above which the DW would keep moving continuously with a nonzero time-averaged velocity), and monitor the dynamics of the DW.…”
Section: Resultsmentioning
confidence: 99%
“…In three-dimensional bulk ferromagnetic materials, the scaling behavior of the Barkhausen effect is understood theoretically in terms of the depinning transition of domain walls [3] with two distinct universality classes for amorphous and polycrystalline materials [4]. A similar clear-cut classification does not exist in lower dimensions, despite Barkhausen avalanches having been studied experimentally for decades in several ferromagnetic thin films with in-plane [5][6][7][8][9][10] or out-of-plane anisotropy [11,12]. This issue is particularly important because these lowdimensional magnetic structures have become increasingly relevant for various technological applications [13,14].…”
Section: Introductionmentioning
confidence: 99%
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“…Recently, experimental results show that the critical exponent of the size distribution decreases with increasing temperature, a fact attributed to a transition between the universality classes of long-to short-range interactions. [21] However, theoretically, this is an argument that can be sustained only for 3-dimensional systems. [22] The paper is organized as follows.…”
Section: Introductionmentioning
confidence: 99%
“…Magnetic thin films (bellow 200 nm) have exponents belonging to a new universality classes different from the 3-dimensional magnets. [19][20][21] The usual theoretical approach to these thin films are 2-dimensional models. Recently, experimental results show that the critical exponent of the size distribution decreases with increasing temperature, a fact attributed to a transition between the universality classes of long-to short-range interactions.…”
Section: Introductionmentioning
confidence: 99%