Afterword: background leading to the microscopic theory of superconductivity by John Bardeen

Fritz London ◽  
1995 ◽  
pp. 267-272 ◽  
Author(s):  
John Bardeen
Keyword(s):  
Microscopic Theory ◽  
John Bardeen ◽  
Theory Of Superconductivity

SUPERCONDUCTIVITY: FROM ELECTRON INTERACTION TO NUCLEAR SUPERFLUIDITY

2010 ◽  
Vol 24 (20n21) ◽  
pp. 3814-3834
Author(s):  
David Pines
Keyword(s):  
Microscopic Theory ◽  
Early Spring ◽  
Theoretical Physics ◽  
Electron Interaction ◽  
Effective Electron ◽  
David Bohm ◽  
Small Segment ◽  
Physics Community ◽  
John Bardeen ◽  
Theory Of Superconductivity

I present an expanded version of a talk given at the Urbana symposium that celebrated the fiftieth anniversary of the publication of the microscopic theory of superconductivity by Bardeen, Cooper, and Schrieffer — BCS. I recall at some length, the work with my Ph.D. mentor, David Bohm, and my postdoctoral mentor, John Bardeen, on electron interaction in metals during the period 1948–55 that helped pave the way for BCS, describe the immediate impact of BCS on a small segment of the Princeton physics community in the early spring of 1957, and discuss the extent to which the Bardeen–Pines–Frohlich effective electron-electron interaction provided a criterion for superconductivity in the periodic system. I describe my lectures on BCS at Niels Bohr's Institute of Theoretical Physics in June 1957 that led to the proposal of nuclear superfluidity, discuss nuclear and cosmic superfluids briefly, and close with a tribute to John Bardeen, whose birth centennial we celebrated in 2008, and who was my mentor, close colleague, and dear friend.

scholarly journals Contribution of Ukrainian Scientists to the Development of Electrodynamics

2020 ◽  
Vol 65 (1) ◽  
pp. 82
Author(s):  
I. V. Korsun
Keyword(s):  
Arc Welding ◽  
Social Activity ◽  
Microscopic Theory ◽  
Acoustic Resonance ◽  
Popularization Of Science ◽  
Scientific Schools ◽  
Photoelectromotive Force ◽  
Radio Signals ◽  
Live Broadcast ◽  
Theory Of Superconductivity

The aim of the paper is to prove the importance of the works performed by Ukrainian scientists for the development of electrodynamics. Some examples of achievements made by Ukrainian scientists in this scientific area include physical theories in such directions as the electrical conductivity, domain structure of ferromagnets, photoelectromotive force in semiconductors, microscopic theory of superconductivity, Shubnikov–de Haas effect, magneto-acoustic resonance, invention of an electric tram, live broadcast of the moving-image signal, distant control of objects by means of radio signals, and arc welding of metals. Most Ukrainian scientists have founded their own scientific schools, which works are recognized throughout the world. They were not only engaged in the scientific and lecturing activities, but also in the popularization of science, reformation of the education system, and social activity.

Electron-momentum distribution of cuprate superconductors in a full charge-spin recombination scheme

2015 ◽  
Vol 29 (29) ◽  
pp. 1550178 ◽  
Author(s):  
Shiping Feng ◽  
Lülin Kuang ◽  
Huaisong Zhao
Keyword(s):  
Momentum Distribution ◽  
Cuprate Superconductors ◽  
Unsolved Problem ◽  
Microscopic Theory ◽  
Sum Rule ◽  
Electron Momentum ◽  
Electron Momentum Distribution ◽  
A Charge ◽  
Full Charge ◽  
Theory Of Superconductivity

A long-standing unsolved problem is how a microscopic theory of superconductivity in cuprate superconductors based on the charge-spin separation can produce a large electron Fermi surface (EFS). Within the framework of the kinetic-energy driven superconducting mechanism, a full charge-spin recombination scheme is developed to fully recombine a charge carrier and a localized spin into an electron, and then is employed to study the electron-momentum distribution in cuprate superconductors. In particular, the theory shows that the underlying EFS fulfills Luttinger’s theorem, and the sum rule for the constrained electron is obeyed.

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