Prof. Dr. Lauriane Chomaz
Physikalisches Institut
Im Neuenheimer Feld 226
69120 Heidelberg
Physikalisches Institut
Im Neuenheimer Feld 226
69120 Heidelberg
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 Theses
Master Theses (or equivalent)
Sarah Philips, Characterizing a High-Resolution Imaging System for the Dysprosium Experiment (2023).Charles Drevon, Characterisation of an accordion lattice setup for a low-dimensional dipolar quantum gases experiment (2023).
Thibault Bourgeois, Tailorable optical trap with Digital Micromirror Device for Dysprosium experiment (2023).
Valentina Salazar Silva, The Accordion Lattice: Towards Trapping of Dysprosium Ultracold Gases in Two Dimensions (2023).
Jianshun Gao, A First Two-Dimensional Magneto-Optical Trap for Dysprosium (2022).
Joschka Schöner, Magnetic-Field Setup for Magneto-Optical Trapping and Interaction Tuning in a Novel Dysprosium Quantum Gas Experiment (2022).
Bachelor Theses
Lea Neumann, Theoretical investigation of the superfluid-supersolid phase transition of a 3D dysprosium quantum gas (2024).Adrian Schürg, Optimisation of microsecond laser pulses for lithium absorption imaging (2024).
Jonah Lux, Optimizing Stability in Accordion Lattice Dipole Trap through Piezoelectric Algorithmic Phase Correction (2024).
Maurice Rieger, Magnetic-field characterisation and spin manipulation in ultracold dysprosium using radio-frequency driving and AC Stark shifts (2023).
Britta Bader, Absorption Imaging for Ultracold Gases of Dysprosium: Optical setup, noise analysis and investigation of the fitting routine's reliability (2023).
Felix Borchers, Modelling of Asbsorption Imaging of degenerate Fermi Gases in ultracold Atom Experiments (2023).
Paul Holzenkamp, An Optical Dipole Trap with Tunable Geometry for Dysprosium (2022).
Lennart Hoenen, Fast, High Precision Low Noise Bipolar Power Supply for Magnetic Field Coils in Ultra-Cold Dysprosium Experiment (2022).
Christian Gölzhäuser, Building a new Dy quantum gas experiment (2021).