Abrikosov vortex

In superconductivity, an Abrikosov vortex is a vortex of supercurrent in a type-II superconductor. The supercurrent circulates around the normal (i.e. non-superconducting) core of the vortex. The core has a size $simxi$ — the superconducting coherence length (parameter of a Ginzburg-Landau theory). The supercurrents decay on the distance about $lambda$ (London penetration depth) from the core. Note that in type-II superconductors $lambda>xi$ . The circulating supercurrents induce magnetic field with the total flux equal to a single flux quantum $Phi_0$ . Therefore, an Abrikosov vortex is often called a fluxon.

The magnetic field distribution of a single vortex far from its core can be described by
$B(r) = frac{Phi_0}{2pilambda^2}K_0left(frac{r}{lambda}
ight) approx sqrt{frac{lambda}{r expleft(-frac{r}{lambda}
ight),$
where $K_0(z)$ is the so-called Bessel function. Note that, according to the above formula, at $r o 0$ the magnetic field $B(r)proptoln(lambda/r)$ , i.e. logarithmically diverges. In reality, for $rlesssimxi$ the field is simply given by

$B(0)approx frac{Phi_0}{2pilambda^2}lnkappa,$
where "κ" = "λ/ξ" is known as the Ginzburg-Landau parameter, which must be $kappa>1/sqrt{2}$ in type-II superconductors.

Abrikosov vortices can be trapped in a type-II superconductor by chance, on defects, etc. Even if initially type-II superconductor contains no vortices, and one applies a magnetic field $H$ larger than the first critical field $H_{c1}$ (but smaller than the second critical field $H_{c2}$ ), the field penetrates into superconductor in terms of Abrikosov vortices. Each vortex carries one thread of magnetic field with the flux $Phi_0$ . Abrikosov vortices form a lattice (usually triangular, may be with defects/dislocations) with the average vortex density (flux density) approximately equal to the externally applied magnetic field.

ee also

* Ginzburg-Landau theory
* type-II superconductor
* Alexei Alexeyevich Abrikosov

References

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