Cookies ussage consent
Our site saves small pieces of text information (cookies) on your device in order to deliver better content and for statistical purposes. You can disable the usage of cookies by changing the settings of your browser. By browsing our site without changing the browser settings you grant us permission to store that information on your device.
I agree, do not show this message again.Overview of the superradiant phase transition: the Dicke model♣
N. S. TONCHEV1,* , J. G. BRANKOV2, V. A. ZAGREBNOV3
Affiliation
- Institute of Solid State Physics, Bulgarian Academy of Sciences, 72 Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria
- Institute of Mechanics, Bulgarian Academy of Sciences, acad. G.Bonchev 4, 1113, Bulgaria
- Université de la Mediterranée (Aix-Marseille II) and Centre de Physique Théorique UMR-6207,Luminy-Case 907, 13288 Marseille, Cedex 09, France
Abstract
The real interaction between matter and electromagnetic radiation is too complicated for a complete theoretical investigation. Nevertheless, in some cases the problem admits an amazing simplification which allows one to consider interesting phenomena in the framework of rather simple models having even exact solutions. A model, which describes in the dipolar approximation the interaction of N two-level atoms with a quantized radiation field in an ideal cavity with volume V , bears the name of Dicke. This model is of key importance for describing dynamical, collective and coherent effects in quantum optics. Since 1974, when Hepp and Lieb rigorously proved that the Dicke model exhibits a second order phase transition from the normal to a superradiant phase, its thermodynamic properties have been studied in detail in the context of critical phenomena and solid state physics. Quite recently, a new aspect emerged when it was realized that the quantum phase transition of the model is relevant to quantum information and quantum computing. Various physical approximations have been extensively debated in the above mentioned fields of research. Here, an attempt is made to review in a rigorous manner the thermodynamic properties of the original Dicke model and its different generalizations. Some new results concerning relations between different indicators of criticality are presented as well..
Keywords
Quantum phase transitions, General theory and models of magnetic ordering, Finite-size scaling, Entanglement and quantum nonlocality.
Submitted at: Nov. 5, 2008
Accepted at: Sept. 9, 2009
Citation
N. S. TONCHEV, J. G. BRANKOV, V. A. ZAGREBNOV, Overview of the superradiant phase transition: the Dicke model♣, Journal of Optoelectronics and Advanced Materials Vol. 11, Iss. 9, pp. 1142-1149 (2009)
- Download Fulltext
- Downloads: 39 (from 37 distinct Internet Addresses ).