Robert R. Wilson
|This article needs additional citations for verification. (March 2013)|
|Robert R. Wilson|
Robert R. Wilson at the Fermilab groundbreaking ceremony
March 4, 1914|
|Died||January 16, 2000
Ithaca, New York
Robert Rathbun Wilson (March 4, 1914 – January 16, 2000) was an American physicist who was a group leader of the Manhattan Project, a sculptor, and an architect of Fermi National Laboratory (Fermilab), where he was also the director from 1967–1978.1
Wilson was born in Frontier, Wyoming in 1914.
In 1932 he arrived at Ernest O. Lawrence's Radiation Laboratory at the University of California, Berkeley, which was at that time blossoming into the top American site for both experimental and theoretical physics due to the efforts of Lawrence and J. Robert Oppenheimer.
But Wilson ran into friction with Lawrence's harsh frugality while working on his cyclotron and was fired twice from the Rad Lab. The first time, for losing a rubber seal in the 37-inch cyclotron which prevented its use in a demonstration to a potential donor; he was later rehired at Luis Alvarez's urging. However he soon melted a pair of pliers during a welding job, and was again fired. Though offered his job back, he decided instead to go to Princeton to work with Henry DeWolf Smyth.
At Princeton, Wilson eventually took over Smyth's project: an alternative approach to electromagnetic separation from Lawrence's Calutrons, for the purpose of separating the valuable light isotope of uranium from the immensely more common heavy one (a key step to producing an atomic bomb). By 1941 the project had produced a device called the "Isotron," which, unlike the Calutron, used an electrical field to separate the uranium instead of a magnetic one.
When Robert Oppenheimer's secret centralized laboratory for war research on the atomic bomb—Los Alamos—opened in 1943, Wilson was appointed as head of the Cyclotron Group (R-1) by Oppenheimer. Only in his late twenties, he was the youngest group leader in the experimental division.
In 1945, when Nazi Germany surrendered, and the initial motivation for the crash atomic bomb project (the Manhattan Project) dissipated as it was discovered that the Nazi atomic research program was years behind, Wilson attempted to raise the question at the lab of whether they should continue with their work. News of this was met with an icy reception from General Leslie Groves, military head of the project. In later life, Wilson would say that he should have strongly considered ceasing work on the bomb after the surrender of Germany, and regretted not doing so to some extent.
After the bombings of Hiroshima and Nagasaki, Wilson helped organize the Association of Los Alamos Scientists (ALAS), which called, with a scientists' petition, for the international control of atomic energy. The petition was carried by Oppenheimer to Washington, D.C., eventually making its way via Secretary of War Henry L. Stimson to President Harry S. Truman. Ironically the Russians may have seen it first—atomic spy Klaus Fuchs gave Harry Gold a copy which arrived in Moscow on October 29, 1945, and was noted upon that the physicists' "feelings of distrust toward the government are very strong."
After the war Wilson also helped form the Federation of American Scientists and served as its chairman in 1946. During the same period he accepted a short appointment at Harvard (most of which was spent at Berkeley). During this short stay at Harvard Wilson published a seminal paper, "Radiological Use of Fast Protons", which essentially founded the field of proton therapy.23 Then in 1947 he went to Cornell University where he worked at the Cornell Laboratory of Nuclear Studies. There his achievements led to the construction of a particle accelerator, the Cornell Electron Storage Ring (CESR), now located at the Wilson Synchrotron Laboratory.
In 1967 he took a leave of absence from Cornell to assume directorship of the not-yet-created National Accelerator Laboratory which was to create the largest particle accelerator of its day at Batavia, Illinois. In 1969, Wilson was called to justify the multimillion-dollar machine to the Congressional Joint Committee on Atomic Energy. Bucking the trend of the day, Wilson emphasized it had nothing at all to do with national security, rather:
It only has to do with the respect with which we regard one another, the dignity of men, our love of culture... it has to do with: Are we good painters, good sculptors, great poets? I mean all the things that we really venerate and honor in our country and are patriotic about. In that sense, this new knowledge has all to do with honor and country but it has nothing to do directly with defending our country except to help make it worth defending.4
Thanks to Wilson's leadership—in a full-steam ahead style very much adopted from Lawrence, despite his firings—the facility was completed on time and under budget. Originally named the National Accelerator Laboratory, it was renamed the Fermi National Accelerator Laboratory (Fermilab for short) in 1974, after famed Italian physicist Enrico Fermi; the facility centered around a four-mile circumference, 400 GeV accelerator. Unlike most government facilities, Fermilab was designed to be aesthetically pleasing. Wilson wanted Fermilab to be an appealing place to work, believing that external harmony would encourage internal harmony as well, and labored personally to keep it from looking like a stereotypical "government lab", playing a key role in its design and architecture. It had a restored prairie which served as a home to a herd of American Bisons, ponds, and a main building purposely reminiscent of a cathedral in Beauvais, France. Fermilab's Central Laboratory building was later named Robert Rathbun Wilson Hall in his honor.
Wilson served as the director of Fermilab until 1978, and then joined the faculty of the University of Chicago. In 1982 he became Michael I. Pupin Professor of Physics at Columbia University. He retired in 1984 and moved back to Ithaca.
Wilson received many awards and honors, including the Elliott Cresson Medal in 1964, the National Medal of Science in 1973, the Enrico Fermi Award in 1984, and was elected to the National Academy of Sciences, the American Academy of Sciences, and the American Philosophical Society. He was president of the American Physical Society in 1985. A metal sculpture created by Wilson sits in the lobby of the Harvard Science Center.
- Robert Wilson is interviewed in the Oscar-nominated documentary The Day After Trinity (1980).
- In 1989 Wilson was portrayed by Todd Field in Roland Joffe's Fat Man and Little Boy. Coincidentally, Field's wife, Serena Rathbun, is a distant relation of Wilson's.
- McDaniel, Boyce; Silverman, Albert (April 2000). "Obituary: Robert Rathbun Wilson". Physics Today 53 (4): 82–83. doi:10.1063/1.883056.
- "Robert R. Wilson: Remembered as "Father of Proton Therapy"". Retrieved 2011-09-01.
- "Radiological Use of Fast Protons" (Radiology 1946:47:487-91)
- "R.R. Wilson's Congressional Testimony, April 1969". Fermilab History and Archives Project. Retrieved 2013-08-14.
- "What is Fermilab?". Retrieved 7 March 2012.
- Gregg Herken, Brotherhood of the Bomb: The Tangled Lives and Loyalties of Robert Oppenheimer, Ernest Lawrence, and Edward Teller (Henry Holt and Co., 2002).
- Philip J. Hilts, Scientific Temperaments : Three Lives in Contemporary Science (Simon and Schuster, 1982). Lengthy profiles of Wilson, geneticist Mark Ptashne, and computer scientist John McCarthy.
- Spencer R. Weart, From Frontiersman To Physicist: Robert Rathbun Wilson (American Institute of Physics Center for History Of Physics, 2000).
- Annotated Bibliography for Robert R. Wilson from the Alsos Digital Library for Nuclear Issues
- The birth of Fermilab according to Wilson
- Remembering Robert Wilson, Obituary in the Bulletin of the Atomic Scientists, March/April 2000, pp. 3
- Wilson's account of his work at Los Alamos
- Memoir of Wilson at Los Alamos and Cornell by Hans Bethe
- The New York Times obituary (January 18, 2000)
- Cornell Chronicle obituary (January 20, 2000)