Analog Simulation of Weyl Particles with Cold Atoms

Carlos Lobo; Christophe Salomon (LKB (Lhomond)); Daniel Suchet (LKB (Lhomond)); Franz Sievers (LKB (Lhomond)); Fr\'ed\'eric Chevy (LKB (Lhomond)); Johnathan Lau; Mihail Rabinovic (LKB (Lhomond)); Norman Kretzschmar (LKB (Lhomond)); Olga Goulko; Thomas Reimann (LKB (Lhomond))

arxiv: 1507.02106 · v2 · pith:SUIHKVQ4new · submitted 2015-07-08 · ❄️ cond-mat.quant-gas

Analog Simulation of Weyl Particles with Cold Atoms

Daniel Suchet (LKB (Lhomond)) , Mihail Rabinovic (LKB (Lhomond)) , Thomas Reimann (LKB (Lhomond)) , Norman Kretzschmar (LKB (Lhomond)) , Franz Sievers (LKB (Lhomond)) , Christophe Salomon (LKB (Lhomond)) , Johnathan Lau , Olga Goulko

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Carlos Lobo Fr\'ed\'eric Chevy (LKB (Lhomond))

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classification ❄️ cond-mat.quant-gas

keywords kickrelaxationtraptrappingweylabsenceaccordingallowing

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We study theoretically, numerically, and experimentally the relaxation of a collisionless gas in a quadrupole trap after a momentum kick. The non-separability of the potential enables a quasi thermalization of the single particle distribution function even in the absence of interactions. Suprinsingly, the dynamics features an effective decoupling between the strong trapping axis and the weak trapping plane. The energy delivered during the kick is redistributed according to the symmetries of the system and satisfies the Virial theorem, allowing for the prediction of the final temperatures. We show that this behaviour is formally equivalent to the relaxation of massless relativistic Weyl fermions after a sudden displacement from the center of a harmonic trap.

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Analog Simulation of Weyl Particles with Cold Atoms

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