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Stirling Colgate (born 1925) is an American physicist at Los Alamos National Laboratory and a professor emeritus of physics at the New Mexico Institute of Mining and Technology (New Mexico Tech). He was America's premier diagnostician of thermonuclear weapons during the early years at the Lawrence Livermore National Laboratory in California. While much of his involvement with physics had been highly classified, he has made many contributions in the open literature including physics education and astrophysics.
Colgate attended Los Alamos Ranch School until 1942 when a military delegation along with input from Robert Oppenheimer and Ernest O. Lawrence decided to close the school. Colgate and others in the class were then graduated without notice. The following year he attended Cornell University to study electrical engineering.
In 1944 Colgate enlisted in the merchant marine. After Hiroshima, the captain called upon him to "tell us what it means." At that time what he explained was strictly confidential, most of all the description of nuclear fission.
In 1952 he moved to Livermore National Laboratory. The laboratory had been recently created by Edward Teller with encouragement from the United States Air Force in order to compete with Los Alamos weapons research. For the purposes of developing a hydrogen bomb, Teller assigned Colgate to the diagnostic measurements for their nuclear tests.
Colgate studied the radioactive products of an explosion which were scooped from the atmosphere by specially designed aircraft. His second job was measuring the range of energy of the neutrons and higher frequency gamma rays created by the nuclear tests.
Colgate's work required him to shuffle between Livermore and Los Alamos. During one trip to Los Alamos he met Subrahmanyan Chandrasekhar, whom he worked with again almost ten years later.
In the 1950s Colgate was in charge of thousands during the Bravo test, the first deliverable thermonuclear bomb. Upon this success, Teller encouraged Colgate to begin research on thermonuclear fusion and plasma physics.
In 1956 Colgate and colleague Montgomery Johnson were recruited to investigate the resultant radiation and debris from a hydrogen bomb explosion in space. They realized that the X-ray and gamma-ray emissions of supernovae could also set off satellites designed to detect hydrogen bomb explosions.
Colgate's supernova research during this investigation ignited his interest in astrophysics. Colgate and Johnson's first attempts to understand the mechanism of a supernova began with determining the actual cause of one. They assumed that "a shockwave from the core bounce smashes into nuclear ash plummeting inwards due to the inward tug of gravity". The shock wave would turn this matter around, heating it up, causing the supernova. However this turned out to be wrong, as Richard White used computer simulations to show that the shock wave would not be strong enough to trigger the event. Colgate and White began developing models of stars on the verge of collapse. White wrote a computer program combining software used to design bombs with equations of state for a star. In discussions with a friend, Colgate found that neutrinos can develop degeneracy pressure. This pressure aided the shock wave in blowing off the outer shells of an expiring star, leaving a neutron star behind. While this research helped validate Chandrasekhar's work on limits, neutron stars were still purely hypothetical.
In 1959, upon the advice of Los Alamos and Livermore National Laboratories, the State Department recruited Colgate as the scientific consultant on nuclear test ban negotiations in Geneva. It was here that he proposed the detection of nuclear testing by use of spy satellites, specifically the Vela satellites. However he also raised the possibility of false alarms caused by supernovae.
Despite encouragement by Teller to follow up on the detonation of the 50 megaton Czar bomb which the Soviet Union had just detonated in breach of the Soviet-American moratorium on nuclear weapons, Colgate decided to continue his prior research on supernovae.
In 1966 his research with Johnson and White finally emerged in a paper carefully edited by Chandrasekhar.
Colgate went on to serve as the president of New Mexico Tech in Socorro, New Mexico from the beginning of 1965 through the end of 1974. While there he conducted research programs in astrophysics and atmospheric physics as well as leading the college. Many of his projects had colorful names inspired by the experimental configurations and goals. Some of these included DigAs (a search for early supernova in galaxies with a remote controlled telescope in real time using an IBM 360-44 mainframe computer through a digital microwave link from the New Mexico Tech campus to the school's Langmuir Laboratory), Paul Bunyan's Condom (aka PBC - a long plastic tube inflated by a B-26 bomber engine/propeller pumping charged smoke up into a thunder storm cloud), and SNORT (supernova observational radio telescope - a search for radio frequency chirps caused by the dispersive media between the receiver and the distant supernova).
From 1975 to the present, Colgate has worked at the Los Alamos National Laboratory (LANL) and is a professor emeritus at New Mexico Tech. He has continued his research into supernova and received the 2006 Los Alamos medal from LANL.