crème de la crème

Jai Ganesh · Today 00:03:41

2464) Edwin McMillan

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The heaviest element existing in nature is uranium, which has an atomic number of 92. All of the heavier elements are radioactive and quickly decay. It has become apparent, however, that they can be created by bombarding atoms with particles and atomic nuclei. In 1940 Edwin McMillan used a particle accelerator to radiate uranium with neutrons and proved that an element with an atomic number of 93 had been created. It was named neptunium. McMillan also contributed to the mapping of additional heavy elements and isotopes.

Summary

Edwin Mattison McMillan (September 18, 1907 – September 7, 1991) was an American physicist credited with being the first to produce a transuranium element, neptunium. For this, he shared the 1951 Nobel Prize in Chemistry with Glenn Seaborg.

A graduate of California Institute of Technology, he earned his doctorate from Princeton University in 1933, and joined the Berkeley Radiation Laboratory where he discovered oxygen-15 and beryllium-10. During World War II, he worked on microwave radar at the MIT Radiation Laboratory, and then on sonar at the Navy Radio and Sound Laboratory. In 1942 he joined the Manhattan Project, the wartime effort to create atomic bombs, and helped establish its Los Alamos Laboratory where the bombs were designed. He led teams working on the gun-type nuclear weapon design, and also participated in the development of the implosion-type nuclear weapon.

McMillan co-invented the synchrotron with Vladimir Veksler, and after the war he returned to the Berkeley Radiation Laboratory to build them. He was appointed associate director of the Radiation Laboratory in 1954 and promoted to deputy director in 1958. He became director upon the death of lab founder Ernest Lawrence later that year, and remained director until his retirement in 1973.

Details

Edwin Mattison McMillan (born September 18, 1907, Redondo Beach, California, U.S.—died September 7, 1991, El Cerrito, California) was an American nuclear physicist who shared the Nobel Prize for Chemistry in 1951 with Glenn T. Seaborg for his discovery of element 93, neptunium, the first element heavier than uranium, thus called a transuranium element.

McMillan was educated at the California Institute of Technology and at Princeton University, where he earned a Ph.D. in 1932. He then joined the faculty of the University of California, Berkeley, and became a full professor in 1946 and director of the Lawrence Radiation Laboratory in 1958. He retired in 1973.

While studying nuclear fission, McMillan discovered neptunium, a decay product of uranium-239. In 1940, in collaboration with Philip H. Abelson, he isolated the new element and obtained final proof of his discovery. Neptunium was the first of a host of transuranium elements that provide important nuclear fuels and contributed greatly to the knowledge of chemistry and nuclear theory. During World War II McMillan also did research on radar and sonar and worked on the first atomic bomb. He served as a member of the General Advisory Committee to the U.S. Atomic Energy Commission from 1954 to 1958.

McMillan also made a major advance in the development of Ernest Lawrence’s cyclotron, which in the early 1940s had run up against its theoretical limit. Accelerated in an ever-widening spiral by synchronized electrical pulses, atomic particles in a cyclotron are unable to attain a velocity beyond a certain point, as a relativistic mass increase tends to put them out of step with the pulses. In 1945, independently of the Russian physicist Vladimir I. Veksler, McMillan found a way of maintaining synchronization for indefinite speeds. He coined the name synchrocyclotron for accelerators using this principle. McMillan was chairman of the National Academy of Sciences from 1968 to 1971.

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