Kinetic Roughening and Pinning of Two Coupled Interfaces in Disordered Media

Balankin, Alexander S.; Paredes, Rafael García; Susarrey, Orlando; Morales, Daniel A.; Vacio, Fernando Castrejon

doi:10.1103/physrevlett.96.056101

Cited by 47 publications

(33 citation statements)

References 31 publications

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“…Such experiments, in which the interlayer coupling and the driving field can be rather easily controlled (see, for example, Ref. [30]), have much potential in terms of contributing to the understanding of the dynamics of coupled elastic interfaces in disordered media [37,38].…”

Section: Resultsmentioning

confidence: 99%

Magnetic domain wall creep in the presence of an effective interlayer coupling field

Metaxas

Jamet

Ferré

et al. 2008

Journal of Magnetism and Magnetic Materials

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Section: Resultsmentioning

confidence: 99%

Magnetic domain wall creep in the presence of an effective interlayer coupling field

Metaxas

Jamet

Ferré

et al. 2008

Journal of Magnetism and Magnetic Materials

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“…Many investigators in their experiments used different samples such as cotton and polyester woven fabric (De Boer 1980), knitted fabrics (Zhuang et al 2002), paper (Eklund and Salminen 1986;Family et al 1992;Horváh and Stanley 1995;Kwon et al 1996;Dubé et al 2000;Balankin et al 2006), Berea (Ma et al 1995;Li et al 2006), glass beads (Delker et al 1996;Li and Horne 2001), Bentonite clay (Brú and Pastor 2006), building materials (Balankin et al 2006). Numerical stimulation studies of porous media (Dubé et al 1999;Lam and Horváth 2000) showed that the LW equation is unsatisfactory when it was applied to the experimental data from capillary imbibition of water, as collected in Table 2.…”

Section: Introductionmentioning

confidence: 97%

“…Balankin et al (2006) thought that this phenomenon of wetting fluid advance in paper could be attributed to the complex time dependent due to swelling structure of paper. Fortunately, the randomness of pore sizes and the heterogeneity of natural porous media have been successfully characterized by fractal geometry such as sandstone rock (Katz and Thompson 1985), soil (Perfect and Kay 1991), artifact porous media (paper (Kopelman et al 1986;Balankin et al 2003), porous glasses (Kopelman et al 1986), porous membranes (Kopelman et al 1986), porous fabrics Shou et al 2010), and nanparticles (Xiao et al 2010a,b)).…”

Section: Introductionmentioning

confidence: 98%

“…Delker et al (1996) found that only the three-parameter form, L s (t) ∼ t 1−δ (0.5 < δ < 1), could fit their experimental data for capillary imbibition of water in a column of glass beads over a range of wide time scales with standard deviations about 1 pixel. Balankin et al (2006) performed the paper impregnation experiments. They showed that precursor film flow and the main bulk impregnation fronts rise as L s (t) ∼ t α where the exponent α < 0.5 in both the transient regime and the saturation stage.…”

Section: Introductionmentioning

confidence: 99%

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A Discussion of the Effect of Tortuosity on the Capillary Imbibition in Porous Media

2011

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In the past decades, there was considerable controversy over the LucasWashburn (LW) equation widely applied in capillary imbibition kinetics. Many experimental results showed that the time exponent of the LW equation is less than 0.5. Based on the tortuous capillary model and fractal geometry, the effect of tortuosity on the capillary imbibition in wetting porous media is discussed in this article. The average height growth of wetting liquid in porous media driven by capillary force following the L s (t) ∼ t 1/2D T law is obtained (here D T is the fractal dimension for tortuosity, which represents the heterogeneity of flow in porous media). The LW law turns out to be the special case when the straight capillary tube (D T = 1) is assumed. The predictions by the present model for the time exponent for capillary imbibition in porous media are compared with available experimental data, and the present model can reproduce approximately the global trend of variation of the time exponent with porosity changing.

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“…Up until now, experimental studies have been restricted to the particular problem of two interfaces moving through a single medium generally while separated by a finite lateral distance [3,16]. In this Letter we consider interface dynamics in a novel type of experimental system consisting instead of two coupled, but physically separate, media.…”

mentioning

confidence: 99%

Dynamic Binding of Driven Interfaces in Coupled Ultrathin Ferromagnetic Layers

et al. 2010

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We demonstrate experimentally dynamic interface binding in a system consisting of two coupled ferromagnetic layers. While domain walls in each layer have different velocity-field responses, for two broad ranges of the driving field H, walls in the two layers are bound and move at a common velocity. The bound states have their own velocity-field response and arise when the isolated wall velocities in each layer are close, a condition which always occurs as H→0. Several features of the bound states are reproduced using a one-dimensional model, illustrating their general nature.

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Kinetic Roughening and Pinning of Two Coupled Interfaces in Disordered Media

Cited by 47 publications

References 31 publications

Magnetic domain wall creep in the presence of an effective interlayer coupling field

Magnetic domain wall creep in the presence of an effective interlayer coupling field

A Discussion of the Effect of Tortuosity on the Capillary Imbibition in Porous Media

Dynamic Binding of Driven Interfaces in Coupled Ultrathin Ferromagnetic Layers

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