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A: Fachverband Atomphysik

A 27: Ultra-cold Atoms, Ions and BEC III (joint session A/Q)

A 27.6: Vortrag

Donnerstag, 5. März 2026, 12:30–12:45, N 1

Exploring dynamic properties of finite-temperature Bose-Einstein condensed bubbles in microgravity — •Brendan Rhyno¹, Timothé Estrampes^1,2, Charles Garcion¹, Zain Mehdi³, Abel Beregi⁴, Jean-Baptiste Gerent⁴, Nathan Lundblad⁴, Kuei Sun⁵, Smitha Vishveshwara⁶, and Naceur Gaaloul¹ — ¹Leibniz Universität Hannover — ²Université Paris-Saclay — ³Australian National University — ⁴Bates College — ⁵Washington State University — ⁶University of Illinois at Urbana-Champaign

Since the first observation of ultracold bosonic bubbles with the Cold Atom Lab (CAL) aboard the International Space Station, interest in the structure and properties of Bose-Einstein condensate (BEC) bubbles has grown steadily. Motivated by ongoing CAL operations and upcoming microgravity experiments using the Einstein-Elevator at the Leibniz University of Hannover, we discuss our efforts to model the dynamic properties of quantum bubbles. Starting from an initial thermal state, we develop a formalism to compute n-point correlation functions while varying the shell radius and thickness, utilizing an isotropic `bubble trap' potential. In the ultra-dilute limit, we study nonequilibrium expansions and contractions of the system in the vicinity of the BEC phase transition. In the ultra-thin spherical-shell limit, we develop Bogoliubov techniques for computing nonequilibrium correlators. We conclude by highlighting the relevance of our results to ongoing experimental efforts.

Keywords: BEC; Quantum bubbles; Shell-shaped condensates; nonequilibrium; thermodynamics