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arxiv: 2003.02408 · v2 · pith:E5DNWC7Enew · submitted 2020-03-05 · ❄️ cond-mat.quant-gas · physics.atom-ph

Thermodynamics of a deeply degenerate SU(N)-symmetric Fermi gas

classification ❄️ cond-mat.quant-gas physics.atom-ph
keywords fermisymmetrydegeneratesymmetricdeeplydemonstrateeffectsinteraction
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Many-body quantum systems can exhibit a striking degree of symmetry unparalleled by their classical counterparts. While in real materials SU($N$) symmetry is an idealization, this symmetry is pristinely realized in fully controllable ultracold alkaline-earth atomic gases. Here, we study an SU($N$)-symmetric Fermi liquid of $^{87}$Sr atoms, where $N$ can be tuned to be as large as 10. In the deeply degenerate regime, we show through precise measurements of density fluctuations and expansion dynamics that the large $N$ of spin states under SU($N$) symmetry leads to pronounced interaction effects in a system with a nominally negligible interaction parameter. Accounting for these effects we demonstrate thermometry accurate to one-hundredth of the Fermi energy. We also demonstrate record speed for preparing degenerate Fermi seas, reaching $T/T_F = 0.12$ in under 3 s, enabled by the SU($N$) symmetric interactions. This, along with the introduction of a new spin polarizing method, enables operation of a 3D optical lattice clock in the band insulating-regime.

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