量子简并偶极费米气体。

Quantum degenerate dipolar Fermi gas.

机构信息

Department of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA.

出版信息

Phys Rev Lett. 2012 May 25;108(21):215301. doi: 10.1103/PhysRevLett.108.215301. Epub 2012 May 21.

DOI:10.1103/PhysRevLett.108.215301

Abstract

We report the first quantum degenerate dipolar Fermi gas, the realization of which opens a new frontier for exploring strongly correlated physics and, in particular, quantum liquid crystalline phases. A quantum degenerate Fermi gas of the most magnetic atom 161Dy is produced by laser cooling to 10 μK before sympathetically cooling with ultracold, bosonic 162Dy. The temperature of the spin-polarized 161Dy is a factor T/T(F)=0.2 below the Fermi temperature T(F)=300 nK. The cotrapped 162Dy concomitantly cools to approximately T(c) for Bose-Einstein condensation, thus realizing a novel, nearly quantum degenerate dipolar Bose-Fermi gas mixture. Additionally, we achieve the forced evaporative cooling of spin-polarized 161Dy without 162Dy to T/T(F)=0.7. That such a low temperature ratio is achieved may be a first signature of universal dipolar scattering.

摘要

我们报告了第一个量子简并偶极费米气体，它的实现为探索强关联物理，特别是量子液晶相开辟了一个新的前沿。通过激光冷却到 10 μK，然后与超冷玻色 162Dy 进行同 sympathetic 冷却，产生了最磁性原子 161Dy 的量子简并费米气体。自旋极化的 161Dy 的温度比费米温度 T(F)=300 nK 低 T/T(F)=0.2 倍。共俘获的 162Dy 同时冷却到大约 T(c)以实现玻色-爱因斯坦凝聚，从而实现了一种新颖的、几乎量子简并的偶极玻色-费米气体混合物。此外，我们实现了自旋极化的 161Dy 没有 162Dy 的强制蒸发冷却，达到了 T/T(F)=0.7。如此低的温度比可能是普遍偶极散射的第一个特征。

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量子简并偶极费米气体。

Quantum degenerate dipolar Fermi gas.

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