Avoiding Ergodicity: Static and Dynamical Localization in Clean Interacting Systems |
| TYPE | Theor./Math. Physics Seminar |
| Speaker: | Yuval Baum |
| Affiliation: | Caltech |
| Organizer: | Netanel Lindner |
| Date: | 25.11.2018 |
| Time: | 14:30 - 15:30 |
| Location: | Lidow Nathan Rosen (300) |
| Abstract: | The many body localized phase provides the rst and only example of a generic quantum inter- acting system that does not reach thermal equilibrium, and thereby violates the most fundamental principles of statistical physics. In the last decade, an enormous theoretical effort was invested in understanding the nature of this phase. It has attracted a similar deal of attention also within the experimental community, as it has the potential of storing information about initial states for long times and it allows the application of driving protocols without heating the system to an in finite temperature. A key ingredient for achieving the MBL phase is randomness. The roots of this phase lie within the phenomenon of Anderson localization, where non-interacting particles form a localized non-ergodic phase. It is the question regarding the fate of Anderson localization in the presence of interactions that plants the seed for the discovery of the MBL phase. |