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- Time delay of mean field interaction in thermal Rydberg atomic gas
In this work, we experimentally observe a time-delay effect in the buildup of mean-field interaction, which reveals the key role of collision ionization We analyze the relevant collision channels and propose a microscopic mechanism that quantitatively explains the hysteresis window observed in optical bistability
- Time delay of mean-field interaction in thermal Rydberg atomic gases . . .
In this work, we experimentally observe a time-delay effect in the buildup of mean-field interaction, which reveals the key role of collision ionization We analyze the relevant collision channels and propose a microscopic mechanism that quantitatively explains the hysteresis window observed in optical bistability
- Time delay of mean field interaction in thermal Rydberg atomic gas
In this work, we experimentally observe a time-delay effect in the buildup of mean-field interaction, which reveals the key role of col principle, the OB window should be seen when
- Dissipative time crystal in a strongly interacting Rydberg gas
Here we report the experimental observation of such a dissipative time-crystalline order in a room-temperature atomic gas, where ground-state atoms are continuously driven to Rydberg
- Time delay of mean-field interaction in thermal Rydberg atomic gases
In this work, we experimentally observe a time-delay effect in the buildup of mean-field interaction, which reveals the key role of collision ionization We analyze the relevant collision channels and propose a microscopic mechanism that quantitatively explains the hysteresis window observed in optical bistability
- Ergodicity breaking from Rydberg clusters in a driven . . . - Science
Our analysis suggests that the broken ergodicity is induced by clustering of strongly interacting Rydberg atoms in free space (32 – 35), where dynamics of atoms in the thermal ensemble are synchronized and form the oscillatory phase, i e , a limit cycle (Fig 1, D and E) (20)
- Mean-field approach to Rydberg facilitation in a gas of atoms at high . . .
We derive a mean-field approach to describe this facilitation process in the limits of high and low temperatures, which takes into account Rydberg blockade and the network character of excitation spreading in a low-temperature gas
- Phase Diagram and Self-Organizing Dynamics in a Thermal . . . - Physics
Here, we study a nonequilibrium phase transition and observe signatures of self-organized criticality in a dilute thermal vapor of atoms optically excited to strongly interacting Rydberg states
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