Hans Behringer
Published 2003-11-10Version 1
Physical quantities obtained from the microcanonical entropy surfaces of classical spin systems show typical features of phase transitions already in finite systems. It is demonstrated that the singular behaviour of the microcanonically defined order parameter and susceptibility can be understood from a Taylor expansion of the entropy surface. The general form of the expansion is determined from the symmetry properties of the microcanonical entropy function with respect to the order parameter. The general findings are investigated for the four-state vector Potts model as an example of a classical spin system.
Comments: 15 pages, 7 figures
Journal: J. Phys. A: Math. Gen. 37 (2004) 1443-1458
Inconsistency of microcanonical entropy: the case of chemical potential
Simulations of a classical spin system with competing superexchange and double-exchange interactions
Entropy and Temperature in finite isolated quantum systems
