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RESEARCH PRODUCT
Fluctuations and lack of self-averaging in the kinetics of domain growth
Dieter W. HeermannAndrey MilchevKurt Bindersubject
PhysicsSelf-averagingSingularityDomain wall (magnetism)Monte Carlo methodExponentGeneral Materials ScienceIsing modelStatistical physicsCondensed Matter PhysicsSpurious relationshipSquare latticeElectronic Optical and Magnetic Materialsdescription
The fluctuations occurring when an initially disordered system is quenched at timet=0 to a state, where in equilibrium it is ordered, are studied with a scaling theory. Both the mean-sizel(t)d of thed-dimensional ordered domains and their fluctuations in size are found to increase with the same power of the time; their relative size fluctuations are independent of the total volumeLd of the system. This lack of self-averaging is tested for both the Ising model and the φ4 model on the square lattice. Both models exhibit the same lawl(t)=(Rt)x withx=1/2, although the φ4 model has “soft walls”. However, spurious results withx≷1/2 are obtained if “bad” pseudorandom numbers are used, and if the numbern of independent runs is too small (n itself should be of the order of 103). We also predict a critical singularity of the rateR∝(1−T/Tc)v(z−1/x),v being the correlation length exponent,z the dynamic exponent.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1986-12-01 | Zeitschrift für Physik B Condensed Matter |