Samenvatting
Experiments that cool, trap, and control atoms, ions, and molecules provide a unique testbed. 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 for 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 build which combines a trapped ion – Yb+ - with dipolar atoms - Dy. This poster reports on the development of its design and how it can be used to sense interactions in these atomic quantum systems.
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 build which combines a trapped ion – Yb+ - with dipolar atoms - Dy. This poster reports on the development of its design and how it can be used to sense interactions in these atomic quantum systems.
Originele taal-2 | Engels |
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Status | Gepubliceerd - 2023 |
Evenement | Quantum Matter International Conference – QUANTUMatter 2023 - Madrid, Spanje Duur: 23 mei 2024 → 25 mei 2024 https://www.quantumconf.eu/2023/ |
Congres
Congres | Quantum Matter International Conference – QUANTUMatter 2023 |
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Land/Regio | Spanje |
Stad | Madrid |
Periode | 23/05/24 → 25/05/24 |
Internet adres |