1 research outputs found
London penetration depth in the tight binding approximation: Orthorhombic distortion and oxygen isotope effects in cuprates
We present a simple derivation of an expression for the superfluid density in superconductors with the tight binding energy
dispersion. The derived expression is discussed in detail because of its
distinction from the known expressions for ordinary superconductors with
parabolic energy dispersion. We apply this expression for the experimental data
analysis of the isotope effect in London penetration depth parameter in the BiSrCuO and YBaCuO family compounds near optimal doping, taking into
account the orthorhombic distortion of crystal structure, and estimate the
isotopic change of hopping parameters from the experimental data. We point out
that temperature behaviour is very sensitive to the ratio and estimate this quantity for a number of compounds.Comment: 10 pages, 4 figure