Alexandrov, A.S. Kabanov, V.V. Mott, N.F. Coherent 'ab' and 'c' transport theory of high-Tc cuprates We propose a microscopic theory of the `$c$'-axis and in-plane transport of copper oxides based on the bipolaron theory and the Boltzmann kinetics. The fundamental relationship between the anisotropy and the spin susceptibility is derived, $\rho_{c}(T,x)/\rho_{ab}(T,x)\sim x/\sqrt{T}\chi_{s}(T,x)$. The temperature $(T)$ and doping $(x)$ dependence of the in-plane, $\rho_{ab}$ and out-of-plane, $\rho_{c}$ resistivity and the spin susceptibility, $\chi_{s}$ are found in a remarkable agreement with the experimental data in underdoped, optimally and overdoped $La_{2-x}Sr_{x}CuO_{4}$ for the entire temperature regime from $T_{c}$ up to $800K$. The normal state gap is explained and its doping and temperature dependence is clarified. untagged;Physical Sciences not elsewhere classified 2006-04-04
    https://repository.lboro.ac.uk/articles/preprint/Coherent_ab_and_c_transport_theory_of_high-Tc_cuprates/9411434