Authors: George Rajna
Researchers at the George Washington University have taken a major step toward reaching one of the most sought-after goals in physics: room temperature superconductivity.  NUS physicists have developed a methodology to control the electromigration of oxygen atoms in the buried interfaces of complex oxide materials for constructing high mobility oxide heterostructures.  This electronic super fluidity is a quantum state of matter, so it behaves in a very exotic way that is different from classical physics, Comin says.  The Fermi-Hubbard model, which is believed to explain the basis for high-temperature superconductivity, is extremely simple to describe, and yet has so far proven impossible to solve, according to Zwierlein. 
Comments: 30 Pages.
[v1] 2019-01-15 10:57:34
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