Jeff Maki, Colin J. Dale, Joseph H. Thywissen, Shizhong Zhang
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引用次数: 0
摘要
在实验室中,通过将三维(3D)气体束缚在高度各向异性的阱势中,可以产生低维超冷气体。这种阱势几何不仅可以模拟一维(1D)和二维(2D)物理,还可以用来研究在弱束缚极限下系统如何向三维系统交叉。在本研究中,我们研究了自旋极化费米气体中一维到三维和二维到三维交叉的射频光谱特征。我们求解了强谐波约束下的二体散射 T 矩阵,并利用它评估了高频极限下的二体束缚态和射频光谱转移率,涵盖了准低维和三维极限。我们发现,为了理解具有 p 波相互作用的自旋极化费米气体的维度交叉,需要考虑新出现的 s 波相互作用。
Radio-Frequency Spectroscopy and the Dimensional Crossover in Interacting Spin-Polarized Fermi Gases
Low-dimensional ultracold gases are created in the laboratory by confining
three-dimensional (3D) gases inside highly anisotropic trapping potentials.
Such trap geometries not only provide access to simulating one-dimensional (1D)
and two-dimensional (2D) physics, but also can be used to study how the system
crosses over towards a 3D system in the limit of weak confinement. In this
work, we study the signature in radio-frequency (RF) spectroscopy for both the
1D-to-3D and the 2D-to-3D crossovers, in spin-polarized Fermi gases. We solve
the two-body scattering T-matrix in the presence of strong harmonic confinement
and use it to evaluate the two-body bound state and the RF spectroscopy
transfer rate in the high frequency limit, covering both the
quasi-low-dimensional and 3D limits. We find that in order to understand the
dimensional crossover for spin-polarized Fermi gases with p-wave interactions,
one needs to take into account an emergent s-wave interaction.
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