Bose-Einstein condensates are a new quantum fluid. His research group uses such samples for various directions of research. He does experimental research in atomic physics and laser spectroscopy and focuses currently on Bose-Einstein condensation in dilute atomic gases. The Nobel Prize in Physics 2001 (The Official Web Site of the Nobel Foundation) These topics are interdisciplinary with condensed matter physics.The coherence properties of the condensate are exploited in the field of atom optics. The interactions among the atoms make them an intriguing novel many-body system. Since the discovery of gaseous Bose-Einstein condensation, large samples of ultracold atoms at nanokelvin temperatures are available.
Aspects of interest are sound, superfluidity, and properties of miscible and immiscible multi-component condensates. After postdoctoral work at the Max-Planck Institute for Quantum Optics in Garching, Germany, the University of Heidelberg and at MIT, he joined the physics faculty at MIT (1993), where he is now the John D. MacArthur Professor of Physics. The unprecedented control over the position and velocity of atoms provided by Bose-Einstein condensates is exploited for high precision atom interferometry.Wolfgang Ketterle received a diploma (equivalent to a master's degree) from the Technical University of Munich (1982), and a Ph.D. in Physics from the University of Munich (1986). Professor Ketterle's research is in atomic physics and laser spectroscopy, particularly in the area of laser cooling and trapping of neutral atoms with the goal of exploring new aspects of ultracold atomic matter. Cornell and C.E. Ketterle's research group has used Bose-Einstein condensates as amplifiers for light and for atoms. Coherent beams of atoms extracted from the condensate ("atom lasers") are analogous to optical laser beams.
A third direction is precision measurements.
Wieman).For additional biographical information on Professor Ketterle, see his \"MIT researchers create a continuous source of coherent atoms\" (MIT News Office, May 16, 2002) 2. 1. His earlier research was in molecular spectroscopy and combustion diagnostics.His awards include a David and Lucile Packard Fellowship (1996), the Rabi Prize of the American Physical Society (1997), the Gustav-Hertz Prize of the German Physical Society (1997), the Discover Magazine Award for Technological Innovation (1998), the Fritz London Prize in Low Temperature Physics (1999), the Dannie-Heineman Prize of the Academy of Sciences, Göttingen, Germany (1999), the Benjamin Franklin Medal in Physics (2000), and the Nobel Prize in Physics (2001, together with E.A. He was among the first scientists to observe this phenomenon in 1995, and realized the first atom laser in 1997.