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Observing the Influence of Reduced Dimensionality on Fermionic Superfluids

Lennart Sobirey, Hauke Biss, Niclas Luick, Markus Bohlen, Henning Moritz, Thomas Lompe

2022Physical Review Letters17 citationsDOI

Abstract

Understanding the origins of unconventional superconductivity has been a major focus of condensed matter physics for many decades. While many questions remain unanswered, experiments have found the highest critical temperatures in layered two-dimensional materials. However, to what extent the remarkable stability of these strongly correlated 2D superfluids is affected by their reduced dimensionality is still an open question. Here, we use dilute gases of ultracold fermionic atoms as a model system to directly observe the influence of dimensionality on the stability of strongly interacting fermionic superfluids. We find that the superfluid gap follows the same universal function of the interaction strength regardless of dimensionality, which suggests that there is no inherent difference in the stability of two- and three-dimensional fermionic superfluids. Finally, we compare our data to results from solid state systems and find a similar relation between the interaction strength and the gap for a wide range of two- and three-dimensional superconductors.

Topics & Concepts

SuperfluidityCurse of dimensionalityPhysicsSuperconductivityCondensed matter physicsStability (learning theory)Statistical physicsComputer scienceStatisticsMathematicsMachine learningCold Atom Physics and Bose-Einstein CondensatesPhysics of Superconductivity and MagnetismAdvanced Condensed Matter Physics
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