Scaling behavior for a class of quantum phase transitions

Abstract

We show that for quantum phase transitions with a single bosonic zero mode at the critical point, like the Dicke model and the Lipkin-Meshkov-Glick model, metric quantities such as fidelity, that is, the overlap between two ground states corresponding to two values λ1 and λ2 of the controlling parameter λ, only depend on the ratio η=(λ1-λc)/(λ2-λc), where λ=λc at the critical point. Such scaling property is valid also for time-dependent quantities such as the Loschmidt echo, provided time is measured in units of the inverse frequency of the critical mode.