Dohm Volker
Institute of Theoretical Physics, RWTH Aachen University, Aachen, Germany.
Phys Rev E Stat Nonlin Soft Matter Phys. 2008 Jun;77(6 Pt 1):061128. doi: 10.1103/PhysRevE.77.061128. Epub 2008 Jun 19.
We study spatial anisotropy effects on the bulk and finite-size critical behavior of the O(n) symmetric anisotropic phi;{4} lattice model with periodic boundary conditions in a d -dimensional hypercubic geometry above, at, and below Tc. The absence of two-scale factor universality is discussed for the bulk order-parameter correlation function, the bulk scattering intensity, and for several universal bulk amplitude relations. The anisotropy parameters are observable by scattering experiments at Tc. For the confined system, renormalization-group theory within the minimal subtraction scheme at fixed dimension d for 2<d<4 is employed. In contrast to the epsilon=4-d expansion, the fixed- d finite-size approach keeps the exponential form of the order-parameter distribution function unexpanded. For the case of cubic symmetry and for n=1 , our perturbation approach yields excellent agreement with the Monte Carlo (MC) data for the finite-size amplitude of the free energy of the three-dimensional Ising model at Tc by Mon [Phys. Rev. Lett. 54, 2671 (1985)]. The epsilon expansion result is in less good agreement. Below Tc, a minimum of the scaling function of the excess free energy is found. We predict a measurable dependence of this minimum on the anisotropy parameters. The relative anisotropy effect on the free energy is predicted to be significantly larger than that on the Binder cumulant. Our theory agrees quantitatively with the nonmonotonic dependence of the Binder cumulant on the ferromagnetic next-nearest-neighbor (NNN) coupling of the two-dimensional Ising model found by MC simulations of Selke and Shchur [J. Phys. A 38, L739 (2005)]. Our theory also predicts a nonmonotonic dependence for small values of the antiferromagnetic NNN coupling and the existence of a Lifshitz point at a larger value of this coupling. The nonuniversal anisotropy effects in the finite-size scaling regime are predicted to satisfy a kind of restricted universality. The tails of the large- L behavior at T++Tc violate both finite-size scaling and universality even for isotropic systems as they depend on the bare four-point coupling of the phi4 theory, on the cutoff procedure, and on subleading long-range interactions.
我们研究了空间各向异性对具有周期性边界条件的(O(n))对称各向异性(\varphi^4)晶格模型在(d)维超立方几何结构中高于、处于和低于(Tc)时的体相和有限尺寸临界行为的影响。讨论了体相序参量关联函数、体相散射强度以及几个通用体相振幅关系中不存在双标度因子普适性的情况。各向异性参数可通过在(Tc)时的散射实验观测到。对于受限系统,采用了固定维数(d)((2\lt d\lt4))下最小减法方案中的重整化群理论。与(\epsilon = 4 - d)展开不同,固定维数有限尺寸方法保持序参量分布函数的指数形式不展开。对于立方对称情况且(n = 1),我们的微扰方法与Mon [《物理评论快报》54, 2671 (1985)]给出的三维伊辛模型在(Tc)时自由能有限尺寸振幅的蒙特卡罗(MC)数据取得了极好的一致性。(\epsilon)展开结果的一致性稍差。在(Tc)以下,发现了过量自由能标度函数的一个最小值。我们预测这个最小值对各向异性参数有可测量的依赖性。预测自由能上的相对各向异性效应显著大于对宾德累积量的效应。我们的理论与Selke和Shchur [《物理学报A》38, L739 (2005)]通过MC模拟发现的二维伊辛模型中宾德累积量对铁磁次近邻(NNN)耦合的非单调依赖性在定量上相符。我们的理论还预测了反铁磁NNN耦合较小时的非单调依赖性以及在该耦合较大值时存在一个里夫希茨点。预测有限尺寸标度区域中的非普适各向异性效应满足一种受限普适性。即使对于各向同性系统,在(T\to Tc)时大(L)行为的尾部也违反了有限尺寸标度和普适性,因为它们依赖于(\varphi^4)理论的裸四点耦合、截断过程以及次主导长程相互作用。
