抄録
In this paper we point out that the anomalous transport phenomena in high-Tc cuprates are comprehensively understood on the basis of Fermi liquid theory by taking account of a strong anti-ferromagnetic spin fluctuation. We assume phenomenologically the spectrum of magnetic excitation from experiment and calculate the self-energy on the basis of the one loop approximation. We show that the T-linear term of damping rate, the momentum dependence of lifetime and the transformation of Fermi surface are important to explain the anomalous transport phenomena such as resistivity, Hall coefficient and c-axis resistivity. In particular, the strong spin fluctuation leads to the transformation of Fermi surface which leads to a form more appropriate to nesting. This effect plays an important role. At last we show that our theory is applicable to not only the normal state but also the pseudogap state.
