Abstract
A detailed analysis is reported examining the local magnetic susceptibility χ(r), in relation to the correlation functionG(R) and correlation length ζ, of a spherical model ferromagnet confined to geometryΩ =Ld −d′ × ∞d′ (d′≤2,d>2) under a continuous set oftwisted boundary conditions. The “twist” parameter\(\underline \tau \) in this problem may be interpreted as a measure of the geometry-dependent doping level of interfacial impurities (or antiferromagnetic seams) in theextended system at various temperatures. For τj →0, ∀j∈d-d′, no seams are present except at infinity, whereas if τj = 1/2, impurity saturation occurs. For 0 L), defining the region between seams containing the origin, depends on temperature above a certain threshold (T>T0). Below that temperature (T>T0), seams are frozen at the same position (D≈L/2τ,d-d'=1), revealing a smoothly varying largescale structural phase transition.
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