Dr Rob Smith

Interaction shift of the Bose-Einstein condensation temperature in a dipolar gas

Physical Review A American Physical Society (APS) 111:5 (2025) L051303

Authors:

Milan Krstajić, Jiří Kučera, Lucas R Hofer, Gavin Lamb, Péter Juhász, Robert P Smith

Abstract:

We report measurements of the Bose-Einstein condensate critical temperature shift due to dipolar interactions, employing samples of ultracold erbium atoms which feature significant (magnetic) dipole-dipole interactions in addition to tunable contact interactions. Using a highly prolate harmonic trapping potential, we observe a clear dependence of the critical temperature on the orientation of the dipoles relative to the trap axis. Our results are in good agreement with mean-field theory for a range of contact interaction strengths. This work creates an opportunity for further investigations into beyond-mean-field effects and the finite-temperature phase diagram in the more strongly dipolar regime where supersolid and droplet states emerge. Published by the American Physical Society 2025

Shift of the Bose-Einstein condensation temperature due to dipolar interactions

(2025)

Authors:

Milan Krstajić, Jiří Kučera, Lucas R Hofer, Gavin Lamb, Péter Juhász, Robert P Smith

Data associated with the publication 'Interaction shift of the Bose-Einstein condensation temperature in a dipolar gas'

University of Oxford (2025)

Abstract:

Experimental data for this publication.

Interacting Bose-condensed gases

Chapter in Encyclopedia of Condensed Matter Physics, (2024) V3:124-V3:134

Authors:

C Eigen, RP Smith

Abstract:

We provide an overview of the effects of interactions in Bose-condensed gases. We focus on phenomena that have been explored in ultracold atom experiments, covering both tuneable contact interactions and dipolar interactions. Our discussion includes: modifications to the ground state and excitation spectrum, critical behavior near the Bose-Einstein condensation temperature, the unitary regime where the interactions are as strong as allowed by quantum mechanics, quantum droplets in mixtures, and supersolids in dipolar gases.

Interacting Bose-condensed gases

Chapter in Encyclopedia of Condensed Matter Physics, Elsevier (2024) 124-134

Authors:

Christoph Eigen, Robert P Smith