Difference: AlessandroSarracino (54 vs. 55)
Revision 552020-01-27 - AlessandroSarracino
| Line: 1 to 1 | ||||||||
|---|---|---|---|---|---|---|---|---|
Alessandro Sarracino's homepage | ||||||||
| Line: 6 to 6 | ||||||||
| Istituto dei Sistemi Complessi - CNR & Dipartimento di Fisica, Università Sapienza, Roma, Italy | ||||||||
| Added: | ||||||||
| > > | I am Assistant Professor at the University of Campania "Luigi Vanvitelli", where I teach courses on Electromagnetism and Probability and Information for bachelor's degree in Electronic and Computer Engineering.
My personal page at UCLV | |||||||
Research Interests | ||||||||
| Changed: | ||||||||
| < < | Non-Equilibrium Statistical Mechanics: breakdown of time-reversibility and detailed balance in Markov processes; entropy production; generalized fluctuation-dissiapation relations; ratchet effect; applications to Ising systems, spin glasses and granular systems. Fluctuation-Dissipation Relations: field-free algorithms for the measurement of the response function; second order FDR; growing length-scales in disordered systems. Granular Systems: dynamics of a tracer particle in a granular bath; theoretical, numerical and experimental study of driven granular fluids. Anomalous diffusion: diffusion and response function in inhomogeneous systems; continuous time random walks and Lévy collsion process; Einstein relation in anomalous transport; driven lattice gas. | |||||||
| > > | Non-Equilibrium Statistical Mechanics: breakdown of time-reversibility and detailed balance in Markov processes; entropy production; generalized fluctuation-dissiapation relations; ratchet effect; applications to Ising systems, spin glasses and granular systems. Fluctuation-Dissipation Relations: field-free algorithms for the measurement of the response function; second order FDR; growing length-scales in disordered systems. Granular Systems: dynamics of a tracer particle in a granular bath; theoretical, numerical and experimental study of driven granular fluids. Anomalous diffusion: diffusion and response function in inhomogeneous systems; continuous time random walks and Lévy collsion process; Einstein relation in anomalous transport; driven lattice gas. | |||||||
| CURRICULUM VITAE | ||||||||
View topic | History: r57 < r56 < r55 < r54 | More topic actions...
Copyright © 2008-2025 by the contributing authors. All material on this collaboration platform is the property of the contributing authors. Ideas, requests, problems regarding TWiki? Send feedback