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Malcolm Beasley for Physics Today adds that the book will provide any person curious about superconductivity with something to enjoy. [5] In addition, Jermey Matthews, the book editor from Physics Today, had chosen BCS: 50 years as one of the five books to put on your 2011 holiday wish list. [6]
It commemorates the Theory of Superconductivity developed here by John Bardeen and his students, for which they won a Nobel Prize for Physics in 1972. Microscopic theory of superconductivity In physics , the Bardeen–Cooper–Schrieffer ( BCS ) theory (named after John Bardeen , Leon Cooper , and John Robert Schrieffer ) is the first ...
The three-dimensional version of the Coleman–Weinberg model governs the superconducting phase transition which can be both first- and second-order, depending on the ratio of the Ginzburg–Landau parameter /, with a tricritical point near = / which separates type I from type II superconductivity.
Superconductivity is a set of physical properties observed in superconductors: ... Introduction to Superconductivity (2nd ed.). Dover Books. ISBN ...
The Meissner superconductivity effect serves as an important paradigm for the generation mechanism of a mass M (i.e., a reciprocal range, := / where h is the Planck constant and c is the speed of light) for a gauge field.
In physics, Ginzburg–Landau theory, often called Landau–Ginzburg theory, named after Vitaly Ginzburg and Lev Landau, is a mathematical physical theory used to describe superconductivity. In its initial form, it was postulated as a phenomenological model which could describe type-I superconductors without examining their microscopic properties.
Tinkham's research concentrated on superconductivity and in 1975 he published one of the classic textbooks [5] on the subject. Later he focused on material properties where sample dimensions are in the nanometer range, including studies of nanowires and carbon nanotubes.
Over time, researchers have consistently encountered superconductivity at temperatures previously considered unexpected or impossible, challenging the notion that achieving superconductivity at room temperature was infeasible. [4] [5] The concept of "near-room temperature" transient effects has been a subject of discussion since the early 1950s.