光学偶极子阱中6Li原子深度简并度测定的原子数探测

IF 4.6 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Chinese Journal of Physics Pub Date : 2025-06-05 DOI:10.1016/j.cjph.2025.05.025

Hong-Fang Song , Feng Lai , Ke Li , Fuqiang Wang

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引用次数: 0

摘要

我们在光学偶极子阱（ODT）中通过蒸发冷却产生了6Li原子的深简并费米气体。通过观察理论边界的总体种群饱和度来确定深度简并，并通过有限温度拟合和原位吸收成像进行验证。通过不断降低ODT深度至1.2EF以下，通过原子溢出绕过T≈0.3TF处的泡利阻塞，使气体温度降至0.1TF以下。在零温度下，多体平均场参数β= - 0.63，由阱内托马斯-费米云的大小外推，得到一个修正温度T/TF<；0.1。最后，一个磁场扫过费什巴赫共振点（834 G），将冷的费米气体转化为配对6Li原子的分子玻色-爱因斯坦凝聚体，提供了深度量子简并的确凿证据。

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Atom-number probing for deep degeneracy determination of 6Li atoms in an optical dipole trap

We produce a deeply degenerate Fermi gas of ⁶Li atoms via evaporative cooling in an optical dipole trap (ODT). The deep degeneracy is determined by observing total population saturation at the theoretical boundary, verified with finite-temperature fitting and in situ absorption imaging. The Pauli blocking at

T \approx 0.3 T_{F}

is circumvented through atom spilling by continuously reducing the ODT depth below

1.2 E_{F}

, leading to the gas temperature below

0.1 T_{F}

. The many-body mean field parameter

β = - 0.63

at zero temperature, extrapolated from in-trap Thomas–Fermi cloud sizes, yields a corrected temperature,

T / T_{F} < 0.1

. Finally, a magnetic field sweep across the Feshbach resonance point (834 G) converts the cold Fermi gas into a molecular Bose–Einstein condensate of paired ⁶Li atoms, providing conclusive evidence of deep quantum degeneracy.

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来源期刊

Chinese Journal of Physics 物理-物理：综合

CiteScore

8.50

自引率

10.00%

发文量

361

审稿时长

44 days

期刊介绍： The Chinese Journal of Physics publishes important advances in various branches in physics, including statistical and biophysical physics, condensed matter physics, atomic/molecular physics, optics, particle physics and nuclear physics. The editors welcome manuscripts on: -General Physics: Statistical and Quantum Mechanics, etc.- Gravitation and Astrophysics- Elementary Particles and Fields- Nuclear Physics- Atomic, Molecular, and Optical Physics- Quantum Information and Quantum Computation- Fluid Dynamics, Nonlinear Dynamics, Chaos, and Complex Networks- Plasma and Beam Physics- Condensed Matter: Structure, etc.- Condensed Matter: Electronic Properties, etc.- Polymer, Soft Matter, Biological, and Interdisciplinary Physics. CJP publishes regular research papers, feature articles and review papers.