Group Analysis of Classical Lattice Systems
Group Analysis of Classical Lattice Systems [electronic resource] /
edited by C. Gruber, A. Hintermann, D. Merlini.
- XIV, 331 p. online resource.
- Lecture Notes in Physics, 60 0075-8450 ; .
- Lecture Notes in Physics, 60 .
Definitions and group structure -- The duality transformation -- Duality relation for the correlation functions -- Phase transitions with spontaneous symmetry breakdown. Ergodic decomposition -- Series and cluster expansion an application of universality hypothesis a “generalized” droplet-model -- The partial trace transformation. Equation for the correlation functions and representation of the symmetry group -- Invariant equilibrium states and duality transformation for infinite systems -- Asano contraction and group structure. Analyticity properties of the free energy -- Analyticity and uniqueness of the invariant equilibrium state -- Definitions and group structure for systems with constraints -- Expansions for the partition function -- Partial trace method and equilibrium equations -- Duality transformation restricted to finite bonds -- Asano contractions and unicity of state -- General framework of higher spin systems -- Physical implications of the group structure -- Spin 1 lattice systems -- The duality transformation -- Zeroes of the partition function.
9783540374077
10.1007/3-540-08137-2 doi
Group theory.
Theoretical, Mathematical and Computational Physics.
Group Theory and Generalizations.
QC19.2-20.85
530.1
Definitions and group structure -- The duality transformation -- Duality relation for the correlation functions -- Phase transitions with spontaneous symmetry breakdown. Ergodic decomposition -- Series and cluster expansion an application of universality hypothesis a “generalized” droplet-model -- The partial trace transformation. Equation for the correlation functions and representation of the symmetry group -- Invariant equilibrium states and duality transformation for infinite systems -- Asano contraction and group structure. Analyticity properties of the free energy -- Analyticity and uniqueness of the invariant equilibrium state -- Definitions and group structure for systems with constraints -- Expansions for the partition function -- Partial trace method and equilibrium equations -- Duality transformation restricted to finite bonds -- Asano contractions and unicity of state -- General framework of higher spin systems -- Physical implications of the group structure -- Spin 1 lattice systems -- The duality transformation -- Zeroes of the partition function.
9783540374077
10.1007/3-540-08137-2 doi
Group theory.
Theoretical, Mathematical and Computational Physics.
Group Theory and Generalizations.
QC19.2-20.85
530.1