|
David Morris Lee
(1931)
American physicist who, with Robert C. Richardson and Douglas D. Osheroff,
was awarded the Nobel Prize for Physics in 1996 for their joint discovery
of superfluidity in the isotope helium-3.
Lee received a bachelor's degree from Harvard University in 1952 and
a Ph.D. in physics from Yale University in 1959. He joined the faculty
of Cornell University (Ithaca, N.Y.) in 1959, becoming a full professor
there in 1968. Lee and Richardson built a special cooling apparatus
for their research in the low-temperature laboratory at Cornell. They
discovered superfluidity in helium-3 by accident in 1972. They had cooled
that compound to within a few thousandths of a degree above absolute
zero (-273 C) when Osheroff, a graduate student working with them, noticed
odd changes in the sample's internal pressure. The team eventually determined
that these deviations marked helium-3's phase transition to superfluidity.
Because the atoms in superfluid helium-3 move in a coordinated manner,
that substance lacks all internal friction and flows without resistance.
Helium-3 in this state behaves according to quantum mechanical laws.
The discovery of superfluidity in helium-3 enabled scientists to study
directly in macroscopic (visible) systems the strange quantum mechanical
effects that previously could only be studied indirectly in molecules,
atoms, and subatomic particles.
|