Hans Behringer, Michel Pleimling, Alfred Huller
Published 2002-10-04Version 1
Cluster molecular field approximations represent a substantial progress over the simple Weiss theory where only one spin is considered in the molecular field resulting from all the other spins. In this work we discuss a systematic way of improving the molecular field approximation by inserting spin clusters of variable sizes into a homogeneously magnetised background. The density of states of these spin clusters is then computed exactly. We show that the true non-classical critical exponents can be extracted from spin clusters treated in such a manner. For this purpose a molecular field finite size scaling theory is discussed and effective critical exponents are analysed. Reliable values of critical quantities of various Ising and Potts models are extracted from very small system sizes.
Comments: 15 pages, 12 figures included
Journal: Eur. Phys. J. B 31, 81-93 (2003)
Numerical comparison of two approaches for the study of phase transitions in small systems
Finite size scaling theory for percolation phase transition
Microscopic theory of phase transitions and nonlocal corrections for free energy of a superconductor
