While the exploration of many-body systems far from equilibrium has achieved important recent progress, many profound physical properties of non-equilibrium systems are still far from being understood. This seminar brings together three communities working on closely connected advanced topics relating to collective behaviour in many-body systems: large fluctuations far from equilibrium, slow relaxation in non-equilibrium processes and extreme events in stochastic many-body systems, especially in systems of higher complexity. The envisaged interaction between these fields of research is expected to lead to progress through cross-fertilisation and to open up new directions of research.
Showing posts with label Systems. Show all posts
Showing posts with label Systems. Show all posts
Tuesday, December 28, 2010
The New Generation in Strongly Correlated Electron Systems 2011
We are happy to announce that the abstract submission for the 2011 edition of the conference “The New Generation in Strongly Correlated Electron Systems” is open. You can check out the conference details in this website: http://ngsces2011.cesga.es. The conference is addressed to scientists in an early stage of their careers, from graduate students to postdocs and young assistant professors. The aim of the conference is to bring together emergent researchers in the field of strongly correlated electrons and promote collaborations between them in a friendly atmosphere. We have tried to assemble the conference around four main topics: high Tc superconductivity, including cuprates and pnictides; topological insulators and topological order; graphene, and oxide heterostructures. Despite of this, contributions in other topics in the field are more than welcome.
Saturday, December 11, 2010
Optical Systems
Rorschacher Str. 268
Rorschacher Str. 268
St. Gallen
CH - 9016
Switzerland
Tel: 0041-71-282-3131
Fax: 00-41-71-282-3130
Thursday, November 18, 2010
International workshop on Noise in Non-Equilibrium Systems: From Physics to Biology
Recent advances in the study of artificial and biological nano-systems have revealed that these two topics have in common more fundamental physical aspects than one would expect from the vastly different compositions, structures and functions of these systems. The prevalent strong interaction of the functional parts of both types of systems with their respective environments impose strong fluctuations and therefore most often render standard theoretical approaches like weak coupling theories inadequate. The functional aspects of artificial as well as biological systems generally rely on non-equilibrium conditions which may be imposed by chemical or electrical potential differences, or also by temperature differences. A time dependent external driving exhibits yet another non-equilibrium scenario.
The investigation of transport properties of charges, heat, or particles under strong non-equilibrium conditions in the presence of strong noise has been rich in surprising results and continues to present a lively field of research. While the relevance of quantum mechanics for charge transport in artificial nano-systems is well established, and also recent experiments with nano-mechanical systems have approached the quantum regime, the role of quantum mechanics for biological systems is still controversial.
The purpose of the workshop is to bring together leading experts from different topical research areas such as biophysics, quantum mechanics of nano-systems and transport processes, and to provide a stimulating scientific environment. It is our hope that the interactions among the participants will contribute to a deeper understanding of the fundamental role of noise.
International workshop on Noise in Non-Equilibrium Systems: From Physics to Biology
Recent advances in the study of artificial and biological nano-systems have revealed that these two topics have in common more fundamental physical aspects than one would expect from the vastly different compositions, structures and functions of these systems. The prevalent strong interaction of the functional parts of both types of systems with their respective environments impose strong fluctuations and therefore most often render standard theoretical approaches like weak coupling theories inadequate. The functional aspects of artificial as well as biological systems generally rely on non-equilibrium conditions which may be imposed by chemical or electrical potential differences, or also by temperature differences. A time dependent external driving exhibits yet another non-equilibrium scenario.
The investigation of transport properties of charges, heat, or particles under strong non-equilibrium conditions in the presence of strong noise has been rich in surprising results and continues to present a lively field of research. While the relevance of quantum mechanics for charge transport in artificial nano-systems is well established, and also recent experiments with nano-mechanical systems have approached the quantum regime, the role of quantum mechanics for biological systems is still controversial.
The purpose of the workshop is to bring together leading experts from different topical research areas such as biophysics, quantum mechanics of nano-systems and transport processes, and to provide a stimulating scientific environment. It is our hope that the interactions among the participants will contribute to a deeper understanding of the fundamental role of noise.
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