原子气体在超流-莫特绝缘相变中缓慢质量输运和统计演化。

Slow mass transport and statistical evolution of an atomic gas across the superfluid-Mott-insulator transition.

机构信息

The James Franck Institute and Department of Physics, The University of Chicago, Chicago, Illinois 60637, USA.

出版信息

Phys Rev Lett. 2010 Apr 23;104(16):160403. doi: 10.1103/PhysRevLett.104.160403. Epub 2010 Apr 20.

DOI:10.1103/PhysRevLett.104.160403

PMID:20482031

Abstract

We study transport dynamics of ultracold cesium atoms in a two-dimensional optical lattice across the superfluid-Mott-insulator transition based on in situ imaging. Inducing the phase transition with a lattice ramping routine expected to be locally adiabatic, we observe a global mass redistribution which requires a very long time to equilibrate, more than 100 times longer than the microscopic time scales for on-site interaction and tunneling. When the sample enters the Mott-insulator regime, mass transport significantly slows down. By employing fast recombination loss pulses to analyze the occupancy distribution, we observe similarly slow-evolving dynamics, and a lower effective temperature at the center of the sample.

摘要

我们通过原位成像研究了超冷铯原子在二维光晶格中的输运动力学，跨越了超流-莫特绝缘相变。通过预期局部绝热的晶格斜坡程序来诱导相变，我们观察到全局质量重新分布，需要很长时间才能达到平衡，比局域相互作用和隧道的微观时间尺度长 100 多倍。当样品进入莫特绝缘区时，质量输运明显减慢。通过采用快速复合损耗脉冲来分析占据分布，我们观察到类似的缓慢演化动力学，以及样品中心的有效温度较低。

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原子气体在超流-莫特绝缘相变中缓慢质量输运和统计演化。

Slow mass transport and statistical evolution of an atomic gas across the superfluid-Mott-insulator transition.

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