Prof. Dr. Lauriane Chomaz
Physikalisches Institut
Im Neuenheimer Feld 226
69120 Heidelberg
Physikalisches Institut
Im Neuenheimer Feld 226
69120 Heidelberg
Office: 01.105
Tel: 06221/ 54 19496
Fax: 06221/ 54 19545
01/10/2024
Lauriane becomes Full Professor!
Lauriane becomes Full Professor!
04/04/2023
We got our first Dy BEC!
09/03/2023
The first paper of the Dy lab is on the arXiv!
05/11/2022
We got our first Dy atoms in an optical dipole trap!
08/05/2022
We got our first Dy 3D MOT!
25/04/2022
We got our first Dy 2D MOT!
10/01/2022
We got awarded an ERC Starting Grant!
02/11/2021
First thesis of the QF-group defended!
01/02/2021
Lauriane arrived at the Physikalisches Institut!
Quantum Fluids
QF-group publications
2024
Kibble-Zurek scaling of the superfluid-supersolid transition in an elongated dipolar gas, W. Kirkby, H. Salman, T. Gasenzer, L. Chomaz, arXiv preprint, arXiv:2411.18395 (2024).
À la poursuite des supersolides, L. Chomaz, Pour la science, 565, pp 58--65 (2024).
An experimental platform for studying the heteronuclear Efimov effect with an ultracold mixture of 6Li and 133Cs atoms, E. Lippi, M. Gerken, S. Häfner, M. Repp, R. Pires, M. Rautenberg, T. Krom, E. D. Kuhnle, B. Tran, J. Ulmanis, BiB.ng Zhu, L. Chomaz, M. Weidemüller, Few-Body Systems 66, 1 (2025), arxiv version arXiv:2410.16031 (2024).
Effect of trap imperfections on the density of a quasi-two-dimensional uniform dipolar quantum Bose gas, T. Bourgeois, L. Chomaz, Phys. Rev. A 110, 043303, arXiv version arXiv:2403.04719 (2024).
Polar molecules form elusive quantum state, L. Chomaz, Nature 631, 283-285 (2024).
2023
Compressibility and speeds of sound across the superfluid to supersolid phase transition of an elongated dipolar gas, P. B. Blakie, L. Chomaz, D. Baillie, F. Ferlaino, Phys. Rev. R 5, 033161 (2023), arXiv version arXiv:2306.04794 (2023).
A 2D MOT of dysprosium atoms as a compact source for efficient loading of a narrow-line 3D MOT, S. Jin, J. Gao, K. Chandrashekara, C. Gölzhäuser, J. Schöner, L. Chomaz , Phys. Rev. A 108, 023719 (2023), arXiv version arXiv:2303.05191.
Anomalous loss behavior in a single-component Fermi gas close to a p-Wave Feshbach resonance, K. Welz, M. Gerken, B. Zhu, E. Lippi, M. Rautenberg, L. Chomaz, M. Weidemüller, Phys. Rev. A 107, 053310 (2023), arXiv version arXiv:2210.15981.