At extremely low temperatures, certain materials conduct electrical currents without resistance - a phenomenon called superconductivity. An analogous state occurs in extremely low-temperature fluids, in which molecules flow without internal friction or resistance. Such a state, termed superfluidity, was predicted for helium-3 shortly after the Bardeen, Cooper, and Schrieffer (BCS) theory of 1957 explained the superconductivity of metals. The search for helium-3 superfluidity commenced; it continued for about ten years without success, and was all but abandoned by the time Douglas D. Osheroff began his graduate studies at Cornell University. "The general wisdom was that the superfluidity of helium-3 was a pipe dream of the theorists," says Osheroff. "But in fact, it did occur." In 1972, Osheroff - together with David M. Lee and Robert C. Richardson - demonstrated the transition of helium-3 to a superfluid state at temperatures near absolute zero (-273 degrees C). Twenty-four years after their discovery, Osheroff and colleagues won the Nobel Prize in Physics. Osheroff's scientifically inquisitive nature developed long before his landmark discovery. "A lot of people did crazy things when they were young" says Osheroff, whose wild experimentation including building a 100,000-volt X-ray machine as a teenager. Now as a faculty member at Stanford University, Osheroff stresses the importance of mentoring undergraduates to get them excited about science, and to guide them on what to do next. As for graduate school, Osheroff says that "it doesn't matter what is it that you study as a graduate student - the important thing is learning how to study."
CITATION STYLE
Osheroff, D. (2009). An interview with Nobel laureate Douglas Osheroff, Physics 1996. Journal of Visualized Experiments : JoVE, (29). https://doi.org/10.3791/1540
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