Algebraic approach to two-dimensional systems : shape phase transitions, monodromy, and thermodynamic quantities
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Abstract
We analyze shape phase transitions in two-dimensional algebraic models. We apply our analysis to linearto-
bent transitions in molecules and point out what observables are particularly sensitive to the transition order
parameters . We study numerically the scaling behavior of observables and confirm the dependence of the
energy gap for phase transitions of U n -SO n+1 type. We calculate energies of excited states and show their
unusual behavior for some values of the Hamiltonian control parameter. This behavior is due to the doublehumped
nature of the potential and can be associated with the concept of monodromy. Finally, we compute
numerically thermodynamic quantities, in particular heat capacities, and show their large variation at and
around the critical value of the control parameter.
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Pérez Bernal, F., Iachello, F.: "Algebraic approach to two-dimensional systems : shape phase transitions, monodromy, and thermodynamic quantities". Physical Review A. Vol. 77, 032115. ISSN 1050-2947














