Val Logsdon Fitch (born March 10, 1923, Merriman, Nebraska, U.S.—died February 5, 2015, Princeton, New Jersey) was an American particle physicist who was corecipient, with James Watson Cronin, of the Nobel Prize for Physics in 1980 for experiments conducted in 1964 that disproved the long-held theory that particle interaction should be indifferent to the direction of time.
Fitch’s early interest in chemistry shifted to physics in the mid-1940s when, as a member of the U.S. Army, he was sent to Los Alamos, New Mexico, to work on the Manhattan Project. He graduated from McGill University in Montreal with a bachelor’s degree in electrical engineering in 1948 and was awarded a Ph.D. in physics by Columbia University in 1954. That year he joined the faculty of Princeton University, and he later served (1976–81) as chair of its physics department; in 1987 he was named the James S. McDonnell Distinguished University Professor of Physics.
In experiments conducted at the Brookhaven National Laboratory in 1964, Fitch and Cronin showed that the decay of subatomic particles called K mesons could violate the general conservation law for weak interactions known as CP symmetry. Those experiments in turn necessitated physicists’ abandonment of the long-held principle of time-reversal invariance. The work done by Fitch and Cronin implied that reversing the direction of time would not precisely reverse the course of certain reactions of subatomic particles. Fitch served on various government bodies, including the President’s Science Advisory Committee (1970–73) and the National Science Foundation (1980–83), and in 1993 he was awarded the National Medal of Science. (See also CP violation.)