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- John Robert Schrieffer (/ ˈʃriːfər /; May 31, 1931 – July 27, 2019) was an American physicist who, with John Bardeen and Leon Cooper, was a recipient of the 1972 Nobel Prize in Physics for developing the BCS theory, the first successful quantum theory of superconductivity.
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John Robert Schrieffer (/ ˈ ʃ r iː f ər /; May 31, 1931 – July 27, 2019) was an American physicist who, with John Bardeen and Leon Cooper, was a recipient of the 1972 Nobel Prize in Physics for developing the BCS theory, the first successful quantum theory of superconductivity.
Apr 5, 2024 · John Robert Schrieffer was an American physicist and winner, with John Bardeen and Leon N. Cooper, of the 1972 Nobel Prize for Physics for developing the BCS theory (for their initials), the first successful microscopic theory of superconductivity. Schrieffer was educated at the Massachusetts.
- The Editors of Encyclopaedia Britannica
John Robert Schrieffer was born in Oak Park, Illinois to Louise (Anderson) and John Henry Schrieffer. As a teenager, Schrieffer built radio transmitters and read about physics to supplement a subpar high school curriculum. He began attending MIT in the fall of 1949 and spent two years studying electrical engineering before switching to physics.
Jul 27, 2019 · Biographical. John Robert Schrieffer was born in Oak Park, Illinois on May 31, 1931, son of John H. Schrieffer and his wife Louis (née Anderson). In 1940, the family moved to Manhasset, New York and in 1947 to Eustis, Florida where they became active in the citrus industry. Following his graduation from Eustis High School in 1949, Schrieffer ...
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The story of how Robert Schrieffer solved a problem that had resisted the best minds in physics for more than 40 years, while riding the New York subway, is the stuff of legend in some circles. His explanation of how superconductivity works earned him a share of the 1972 Nobel Prize in Physics. A former president of the American Physical Society (APS), Schrieffer died on 27 July, aged 88.
In 1911 it was discovered that certain metals, when cooled to low enough temperatures, can carry current with no resistance. This seemingly miraculous property, superconductivity, arises directly from quantum mechanics, and underlies many contemporary technologies, such as magnetic resonance imaging body scanners and particle accelerators. For decades, however, there was no theory to explain how electrons in superconducting materials overcome their own mutually repulsive properties and other causes of resistance.
In early 1957, Schrieffer, then a 25-year-old graduate student, wrote down a quantum-mechanical wave function that accounted for the behaviour of electrons in superconductors. With his thesis adviser John Bardeen and postdoc colleague Leon Cooper, he published the now-famous BCS wave function and the full theory of superconductivity less than a year later — named BCS after the trio, who shared the Nobel prize (J. Bardeen, L. N. Cooper and J. R. Schrieffer Phys. Rev. 108, 1175; 1957).The work has had far-reaching consequences for both fundamental science and practical technology. Schrieffer continued to make foundational contributions to our understanding of electrons in solids.
Born in Oak Park, Illinois, in 1931, Schrieffer studied physics at the Massachusetts Institute of Technology in Cambridge as an undergraduate. It was at graduate school at the University of Illinois at Urbana-Champaign that he began working with Bardeen, who in 1956 had just won a share of the physics Nobel for the invention of the transistor.
Bardeen suggested Schrieffer try his hand at understanding superconductivity. This was a risky proposition. After the initial success of quantum theory in describing ordinary conductors, insulators and semiconductors, there had been countless attempts to explain superconductors and all had failed. But the timing was right. Bardeen, with his then-postdoc David Pines, had studied the effect of phonons (quantized sound waves) on metals, showing that they mediated an attractive interaction between electrons. Cooper found that this attractive interaction could lead to the formation of bound pairs of electrons. However, Cooper’s theory described only the formation of a single electron pair. The question remained how to describe the many electrons pairing in the full electronic state of the metal, and why such pairing would lead to the properties of a superconductor.
- Nick Bonesteel, Gregory Boebinger
- 2019
Sep 20, 2019 · John Robert (“Bob”) Schrieffer, one of the leading theoretical physicists of the past century, passed away on 27 July. He was 88. His seminal work with physicists John Bardeen and Leon Cooper earned them the Nobel Prize in Physics in 1972 and is now the accepted the theory of superconductivity.
Aug 6, 2019 · J. Robert Schrieffer, who shared a Nobel Prize in Physics for figuring out how certain materials can convey electricity without resistance — a brainstorm that came to him while riding the New York...
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