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Dr. T.L. Ho's work funded by DMR-0109255 explores fast-rotating quantum gases, pioneering impactful theoretical studies published in renowned journals. This research has led to numerous international conference presentations and the advancement of human resources in academia. Notably, experiments conducted at JILA have revealed surprising behaviors in vortex lattice formation, supported by Ho's theoretical explanations.
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Tin-Lun (Jason) Ho, Work funded by DMR-0109255 • Scientific Impact: One of the major projects funded by DMR-0109255 is the study of fast rotating quantum gases. The theoretical work pioneered in T.L. Ho, PRL, 87, 060403 (2001) has stimulated a great deal of theoretical and experimental work all over the world, (including experiments at MIT,JILA, and ENS at Paris). Together with other work supported by DMR-0109255 including multi-component condensate and strongly interacting Fermi gases, it has generated more than 60 invited talks in the international conferences and major institutions, including a plenary lecture at the International Conference of Low Temperature Physics in 2002 held once every three years. • Contribution to Human Resources: Ho’s postdoc Dr. Erich Mueller in 2001-2003 has become an assistant Professor at Cornell University in Sept 2003.
Tin-Lun (Jason) Ho, Work funded by DMR-0109255 Experiments by the Nobel Prize winning group at JILA showing surprisinng behavior of vortex lattice: A periodic formulation of vortex stripes after being squeezed slightly. PRL 89, 100403, (2002) Explanation of this general properties of fast rotating quantum flluid, E. Mueller and T.L. Ho, PRA 67, 063602 (2003). This explanation utilizes the theory of T.L. Ho, PRL, 87, 060403 (2001) Slightly squeezed Formation of stripes after squeezing
