The Free Energy and the Scaling Function of the Ferromagnetic Heisenberg Chain in a Magnetic Field
Abstract
A nonlinear susceptibilities (the third derivative of a magnetization mS by a magnetic field h ) of the S=1/2 ferromagnetic Heisenberg chain and the classical Heisenberg chain are calculated at low temperatures T. In both chains the nonlinear susceptibilities diverge as T-6 and a linear susceptibilities diverge as T-2. The arbitrary spin S Heisenberg ferromagnet [ H = Σi=1N \ - J Si Si+1 - (h/S) Siz \ (J>0), ] has a scaling relation between mS, h and T: mS(T,h) = F( S2 Jh/T2). The scaling function F(x)=(2x/3)-(44x3/135) + O(x5) is common to all values of spin S.
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