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Leon Neil Cooper. Leon Niels Cooper (born February 28, 1930) is an American physicist and winner of the 1972 Nobel Prize for Physics, along with John Bardeen and J John Robert Schrieffer, for his role in developing the BCS theory (named for their initials) of superconductivity. The concept of Cooper electron pairs was named after him.
Leon Neil Cooper (New York, 28. veljače 1930.), američki fizičar. Diplomirao (1951.) i doktorirao (1954.) na Sveučilištu Columbia, New York, SAD. Zaposlen na Sveučilištu Brown u Providenceu (od 1958.). John Bardeen, Leon Neil Coop ...
Leon Neil Cooper (28 février 1930 à New York) est un physicien américain. Lui, John Bardeen et John Robert Schrieffer sont colauréats du prix Nobel de physique de 1972 pour leurs travaux sur la supraconductivité [ 1 ] .
Leon Neil Cooper, Online Physics, Physicist, Biographies, Physics Encyclopedia, Science Leon Neil Cooper Leon N Cooper[1] (born February 28, 1930) is an American physicist and Nobel Prize laureate, who with John Bardeen and John Robert Schrieffer , developed the BCS theory of superconductivity.[2][3] He is also the namesake of the Cooper pair and co-developer of the BCM theory of synaptic ...
US-Amerikaner. Geboren 1930. Mann. Leon Cooper, 2007. Leon Neil Cooper [1] (* 28. Februar 1930 in New York) ist ein US-amerikanischer Physiker. Er erhielt den Nobelpreis für Physik 1972 gemeinsam mit John Bardeen und John Robert Schrieffer für die Mitentwicklung der BCS-Theorie, die zur Erklärung der Supraleitung beiträgt.
Cooper electron pair. Leon N. Cooper (born Feb. 28, 1930, New York, N.Y., U.S.) is an American physicist and winner of the 1972 Nobel Prize for Physics, along with John Bardeen and John Robert Schrieffer, for his role in developing the BCS (for their initials) theory of superconductivity. The concept of Cooper electron pairs was named after him.
Based on quantum mechanics, Leon Cooper, John Bardeen, and Robert Schrieffer formulated a theory for the phenomenon in 1957. At extremely low temperatures, the interaction between electrons and atoms in the metals' crystalline structure causes the electrons to pair up with one another. As a result, their movement becomes orderly, unlike the random movement at normal temperatures, and ...
