English

Apparatus for quantum-mixture research in microgravity

Quantum Gases 2025-08-29 v1 Atomic Physics Quantum Physics

Abstract

Experiments with ultracold quantum gases are a rapidly advancing research field with many applications in fundamental physics and quantum technology. Here, we report on a high-flux generation of Bose-Einstein condensate mixtures of 41^{41}K and 87^{87}Rb, using a fully integrated sounding rocket setup. We investigate the release and the free expansion of the quantum mixtures for different orientations to gravity. The release dynamics are governed by the mixture interactions as well as the decaying magnetic field during the release. The latter can be minimized by a dedicated switch-off protocol of the trap generating currents where an exact model enabled us to characterize the interaction effects. Our results establish a new benchmark for generating ultracold mixtures on mobile platforms, with direct relevance for future experiments on interacting quantum gases and tests of the equivalence principle in space.

Keywords

Cite

@article{arxiv.2508.20820,
  title  = {Apparatus for quantum-mixture research in microgravity},
  author = {Baptist Piest and Jonas Böhm and Timothé Estrampes and Annie Pichery and Paweł Arciszewski and Wolfgang Bartosch and Sören Boles and Klaus Döringshoff and Michael Elsen and Priyanka Guggilam and Ortwin Hellmig and Christian Kürbis and Dorthe Leopoldt and Gabriel Müller and Alexandros Papakonstantinou and Christian Reichelt and André Wenzlawski and Thijs Wendrich and Éric Charron and Achim Peters and Klaus Sengstock and Andreas Wicht and Patrick Windpassinger and Jens Grosse and Naceur Gaaloul and Ernst Maria Rasel},
  journal= {arXiv preprint arXiv:2508.20820},
  year   = {2025}
}
R2 v1 2026-07-01T05:10:22.223Z