abstract: In contrast to the canonical ensemble where thermodynamic functions are smooth for all finite system sizes, the microcanonical entropy can show nonanalytic points also for finite systems. The relation between finite and infinite system nonanalyticities is illustrated by means of a simple classical spinlike model which is exactly solvable for both finite and infinite system sizes, showing a phase transition in the latter case. The microcanonical entropy is found to have exactly one nonanalytic point in the interior of its domain. For all finite system sizes, this point is located at the same fixed energy value e_c_finite, jumping discontinuously to a different value e_c_infinite in the thermodynamic limit. Remarkably, e_c_finite equals the average potential energy of the infinite system at the phase transition point. The result indicates that care is required when trying to infer infinite system properties from finite system nonanalyticities.

Nonanalyticities of entropy functions of finite and infinite systems / L. CASETTI; M. KASTNER. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - STAMPA. - 97:(2006), pp. 100602-100602. [10.1103/PhysRevLett.97.100602]

Nonanalyticities of entropy functions of finite and infinite systems

CASETTI, LAPO;
2006

Abstract

abstract: In contrast to the canonical ensemble where thermodynamic functions are smooth for all finite system sizes, the microcanonical entropy can show nonanalytic points also for finite systems. The relation between finite and infinite system nonanalyticities is illustrated by means of a simple classical spinlike model which is exactly solvable for both finite and infinite system sizes, showing a phase transition in the latter case. The microcanonical entropy is found to have exactly one nonanalytic point in the interior of its domain. For all finite system sizes, this point is located at the same fixed energy value e_c_finite, jumping discontinuously to a different value e_c_infinite in the thermodynamic limit. Remarkably, e_c_finite equals the average potential energy of the infinite system at the phase transition point. The result indicates that care is required when trying to infer infinite system properties from finite system nonanalyticities.
2006
97
100602
100602
L. CASETTI; M. KASTNER
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/251605
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