Abstract
Hybrid ion-atom systems combine the well-controllable platforms of trapped ions and ultracold quantum gases and link them together by the intermediate-range ion-atom interaction. These quantum systems offer opportunities for buffer gas cooling, quantum simulation of many-body systems, as well as state-to-state quantum chemistry [1]. To fully benefit from the combination, it is
essential to understand, characterize, and control the interactions between the atoms and ions. Therefore, at TU/e, a new experimental setup is being built to go beyond alkali and exploit the novel combination of a trapped ion – Yb+ - with dipolar atoms - Dy. This mixture offers the opportunity to investigate the effects of dipole-dipole interactions in hybrid ion-atoms systems. Here we
present the progress on the design and development of the atomic-part of the setup, emphasizing our efforts towards producing a dipolar BEC.
essential to understand, characterize, and control the interactions between the atoms and ions. Therefore, at TU/e, a new experimental setup is being built to go beyond alkali and exploit the novel combination of a trapped ion – Yb+ - with dipolar atoms - Dy. This mixture offers the opportunity to investigate the effects of dipole-dipole interactions in hybrid ion-atoms systems. Here we
present the progress on the design and development of the atomic-part of the setup, emphasizing our efforts towards producing a dipolar BEC.
| Original language | English |
|---|---|
| Publication status | Published - 30 Jun 2024 |
| Event | Young Atom Opticians Conference 2024 - Centre Européen de Sciences Quantiques (CESQ), Strasbourg, France Duration: 30 Jun 2024 → 5 Jul 2024 https://yao2024.eu/ |
Conference
| Conference | Young Atom Opticians Conference 2024 |
|---|---|
| Abbreviated title | YAO |
| Country/Territory | France |
| City | Strasbourg |
| Period | 30/06/24 → 5/07/24 |
| Internet address |