One of the most fascinating and challenging topics of recent years is many- body physics. Owing to the large number of components of real physi- cal systems an analytical approach or numerical solutions are typically not practicable. However, an experimental approach to this problem is possible thanks to an unprecedented level of matter control on the atomic scale. In our setup we use atoms excited to high-lying energy states, called Rydberg atoms, which have peculiar properties like the extremely long lifetime and strong interactions. These experimental features make a cold ensem- ble of Rydberg atoms a very controllable example of a strongly interacting many-body system and provide a promising framework for quantum simulation.
Driven dissipative dynamics of an interacting Rydberg gas
C. Simonelli;R. Gutierrez;M. Archimi;F. Castellucci;E. Arimondo;D. Ciampini;O. MorschUltimo
2017-01-01
Abstract
One of the most fascinating and challenging topics of recent years is many- body physics. Owing to the large number of components of real physi- cal systems an analytical approach or numerical solutions are typically not practicable. However, an experimental approach to this problem is possible thanks to an unprecedented level of matter control on the atomic scale. In our setup we use atoms excited to high-lying energy states, called Rydberg atoms, which have peculiar properties like the extremely long lifetime and strong interactions. These experimental features make a cold ensem- ble of Rydberg atoms a very controllable example of a strongly interacting many-body system and provide a promising framework for quantum simulation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.