Factorial moment generating function: Difference between revisions

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In [[superconductivity]], the '''superconducting coherence length''', usually denoted as <math>\xi</math> (Greek lowercase ''xi''), is the characteristic exponent of the variations of the density of superconducting component.
 
In some special [[limiting case]]s, for example in the weak-coupling [[BCS theory]] it is related to characteristic Cooper pair size.
 
The superconducting coherence length is one of two parameters in the [[Ginzburg-Landau theory]] of superconductivity. It is given by:<ref name=Tinkham>{{cite book|last=Tinkham|first=M.|title=Introduction to Superconductivity, Second Edition|publisher=McGraw-Hill|location=New York, NY|year=1996|isbn=0486435032}}</ref>
:<math> \xi = \sqrt{\frac{\hbar^2}{2 m |\alpha|}}</math>
while in BCS theory
:<math> \xi =  \frac{2\hbar v_f}{\pi \Delta}</math>
where <math>\hbar</math> is the [[reduced Planck constant]], <math>m</math> is the mass of a Cooper pair (twice the [[electron mass]]), <math>v_f</math> is the Fermi velocity, and <math>\Delta</math> is the superconducting energy gap.
 
The ratio ''κ'' = ''λ/ξ'', where λ is the [[London penetration depth]], is known as the Ginzburg–Landau parameter. [[Type-I superconductor]]s are those with 0 < ''κ'' < 1/√2, and [[type-II superconductor]]s are those with ''κ'' > 1/√2.
 
For temperatures ''T'' near the superconducting critical temperature ''T<sub>c</sub>'', ''&xi;(T) &prop; (1-T/T<sub>c</sub>)<sup>-1</sup>''.
 
==See also==
*  [[Ginzburg-Landau theory]] of superconductivity
*  [[BCS theory]] of superconductivity
 
==References==
{{reflist}}
 
{{DEFAULTSORT:Superconducting Coherence Length}}
[[Category:Superconductivity]]

Revision as of 09:43, 15 March 2013

In superconductivity, the superconducting coherence length, usually denoted as ξ (Greek lowercase xi), is the characteristic exponent of the variations of the density of superconducting component.

In some special limiting cases, for example in the weak-coupling BCS theory it is related to characteristic Cooper pair size.

The superconducting coherence length is one of two parameters in the Ginzburg-Landau theory of superconductivity. It is given by:[1]

ξ=22m|α|

while in BCS theory

ξ=2vfπΔ

where is the reduced Planck constant, m is the mass of a Cooper pair (twice the electron mass), vf is the Fermi velocity, and Δ is the superconducting energy gap.

The ratio κ = λ/ξ, where λ is the London penetration depth, is known as the Ginzburg–Landau parameter. Type-I superconductors are those with 0 < κ < 1/√2, and type-II superconductors are those with κ > 1/√2.

For temperatures T near the superconducting critical temperature Tc, ξ(T) ∝ (1-T/Tc)-1.

See also

References

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