Physics & Astronomy Colloquium - Prof. Nathan Lundblad, Bates College

Dartmouth Events

Physics & Astronomy Colloquium - Prof. Nathan Lundblad, Bates College

Title: "Quantum-Gas Physics in Orbit: Prospects for Microgravity Bose-Einstein Condensates Aboard NASA's Cold Atom Laboratory"

Friday, October 16, 2015
Wilder 104
Intended Audience(s): Public
Categories: Lectures & Seminars

Abstract: Notions of geometry, topology, and dimensionality have directed the historical development of quantum-gas physics, as has a relentless search for longer-lived matter-wave coherence and lower absolute temperature.  With a toolbox of forces for confinement, guiding, and excitation, physicists have used quantum gases to test fundamental ideas in quantum theory, statistical mechanics, and in recent years notions of strongly-correlated many-body physics from the condensed-matter world.  Some of this work has been hampered by terrestrial gravity; levitation schemes of varying degree of sophistication are available, as are atomic-fountain and drop-tower microgravity facilities, but the long-term free-fall environment of low-Earth orbit remains a tantalizing location for quantum-gas experiments.  

I will review a planned NASA microgravity program set to launch to the International Space Station in 2017.   One set of experiments will explore a trapping geometry for quantum gases that is both theoretically compelling and difficult to attain terrestrially: that of a spherical or ellipsoidal shell.    This trap could confine a Bose-Einstein condensate (BEC) to the surface of an experimentally-controlled “bubble.”  Other experiments will focus on atom interferometry and few-body physics.  I will also review recent terrestrial BEC work tailoring periodic geometries toward interesting solid-state analogues.

For more information, contact:
Tressena Manning

Events are free and open to the public unless otherwise noted.