Kenneth Geddes Wilson (born June 8, 1936, Waltham, Massachusetts, U.S.—died June 15, 2013, Saco, Maine) was an American physicist who was awarded the 1982 Nobel Prize for Physics for his development of a general procedure for constructing improved theories concerning the transformations of matter called continuous, or second-order, phase transitions.
Wilson graduated from Harvard University in 1956. In 1961 he received a Ph.D. from the California Institute of Technology, where he completed a dissertation under Murray Gell-Mann (winner of the Nobel Prize for Physics in 1969) and Francis Low. After a year at the European Council for Nuclear Research, Wilson was appointed assistant professor at Cornell University in 1963; he was professor of physics from 1971 to 1988.
Wilson did his prizewinning work on phase transitions while at Cornell. Second-order phase transitions of matter take place at characteristic temperatures (or pressures), but unlike first-order transitions they occur throughout the entire volume of a material as soon as that temperature (called the critical point) is reached. One example of such a transition is the complete loss of ferromagnetic properties of certain metals when they are heated to their Curie points (about 750° C for iron). Wilson’s work provided a mathematical strategy for constructing theories that could apply to physical systems near the critical point. From 1988 Wilson taught at Ohio State University.