CU-Boulder makes headlines for things like alleged on-campus looting after recent floods or a student who fed a teacher and classmates pot brownies. But the folks at the school would prefer to get attention for academic excellence, exemplified by the 2012 Nobel Prize won by David Wineland, who holds a CU lectureship. The latest achievement? Assistant prof Ana Marie Rey has been awarded a 2013 MacArthur Fellowship, also known as a genius grant, which brings not only prestige but $625,000. Learn more about her below.
Rey, the eighth person with CU ties to win the MacArthur (and first in ten years), is a native of Colombia, which accounts for the charming accent she displays in the video below. She studied at the University of Maryland, earning her doctorate in 2004. More recently, she became a fellow in an outfit affiliated with CU and Boulder's National Institute of Standards and Technology, which also employs Wineland.
As for her work, here's how it's described in a CU-Boulder release seen below in its entirety:
Rey works with ultracold atoms and molecules that are trapped in an "optical lattice," a series of shallow wells constructed of laser light. Atoms that are loaded into an optical lattice behave similarly to electrons in a solid crystal structure. But while it's difficult to change the properties of a solid crystal, the properties of an optical lattice -- which essentially acts as a "light crystal"-- are highly controllable, allowing Rey to explore a whole range of phenomena that would be nearly impossible to study in a solid crystal system.
For folks (like your truly) to whom the description above makes about as much sense as the continuing popularity of Big Brother, Rey offers a more accessible description of the research's potential applications in the aforementioned video -- super-sensitive clocks, for instance, and other technological advances made possible by gaining greater control over atomic movement.
Here's the clip, followed by the release.
CU-Boulder/NIST physicist Ana Maria Rey wins 2013 MacArthur Fellowship
Ana Maria Rey, a theoretical physicist and a fellow of JILA, a joint institute of the University of Colorado Boulder and the National Institute of Standards and Technology, today was named a winner of a 2013 MacArthur Fellowship, commonly known as the "genius grant."
Rey also is an assistant research professor in the CU-Boulder Department of Physics. She teaches undergrauate and graduate classes.
Rey is the eighth CU-Boulder faculty member to win the prestigious award from the John D. and Catherine T. MacArthur Foundation of Chicago as well as the fourth physics faculty member and third JILA fellow. Rey, 36, was one of 24 recipients of the 2013 "no-strings attached" funding. She will receive $625,000 paid out over five years.
"It is a great honor for me to be a MacArthur fellow and to receive such great recognition of my work," Rey said. "I want to thank JILA, NIST, CU-Boulder and the outstanding group of colleagues, collaborators and students who have allowed and helped me to accomplish the research I have done."
The MacArthur Foundation selection committee cited Rey as an "atomic physicist advancing our ability to simulate, manipulate, and control novel states of matter through fundamental conceptual research on ultracold atoms."
"We congratulate Professor Rey on this exciting award, and, we also congratulate our faculty, whose ranks now include five Nobel laureates and eight MacArthur Fellowship winners," said CU-Boulder Chancellor Philip P. DiStefano. "I believe Professor Rey's work is emblematic of the research, innovation, and discovery at CU-Boulder, a body of work and a collection of great minds that is unmatched anywhere in the Rocky Mountain region and few places around the nation."
Tom O'Brian, chief of the NIST Quantum Physics Division and Rey's supervisor, said, "Ana Maria has rapidly established herself as one of the world's top young theoretical physicists. She has a special ability to make very practical applications of theory to key experiments. Ana Maria has been crucial to the success of such world-leading NIST/JILA programs as ultracold molecules, dramatic improvements in optical lattice clocks, and use of cold atom systems and trapped ion systems for quantum simulations."
At JILA, Rey works with ultracold atoms and molecules that are trapped in an "optical lattice," a series of shallow wells constructed of laser light. Atoms that are loaded into an optical lattice behave similarly to electrons in a solid crystal structure. But while it's difficult to change the properties of a solid crystal, the properties of an optical lattice -- which essentially acts as a "light crystal" -- are highly controllable, allowing Rey to explore a whole range of phenomena that would be nearly impossible to study in a solid crystal system.
Ultimately, Rey hopes her research will lead to the ability to engineer materials with unique characteristics such as superfluids -- liquids that appear to move without regard for gravity or surface tension -- and quantum magnets -- individual atoms that act like tiny bar magnets.
Rey began studying physics at the Universidad de los Andes in Bogota, Colombia, where she received a Bachelor of Science degree in 1999. She came to the United States to continue her studies, earning a doctorate in physics from the University of Maryland, College Park in 2004.
Before coming to JILA in 2008, Rey was a postdoctoral fellow at the Harvard-Smithsonian Center for Astrophysics in Cambridge, Mass., and a postdoctoral researcher at NIST in Gaithersburg, Md.
Previous CU-Boulder faculty members who have won a MacArthur Fellowship include David Hawkins of philosophy in 1981, Charles Archambeau of physics in 1988, Patricia Limerick of history in 1995, Margaret Murnane of physics and JILA in 2000, Norman Pace of molecular, cellular and developmental biology in 2001, Daniel Jurafsky of linguistics and the Institute of Cognitive Science in 2002 and Deborah Jin of JILA, NIST and physics in 2003.
More from our News archive: "Meet David Wineland, Boulder-based co-winner of the Nobel Prize for physics."