Possible manifestation of spin fluctuations in the temperature behavior of resistivity in Sm1.85Ce0.15CuO4 thin films

Abstract

A pronounced step-like (kink) behavior in the temperature dependence of resistivity (T) is observed in the optimally-doped Sm1.85Ce0.15CuO4 thin films around Tsf=87K and attributed to manifestation of strong spin fluctuations induced by Sm3+ moments with the energy ωsf=kBTsf 7meV. In addition to fluctuation induced contribution sf(T) due to thermal broadening effects (of the width ωsf), the experimental data are found to be well fitted accounting for residual (zero-temperature) res, electron-phonon e-ph(T)=AT and electron-electron e-e(T)=BT2 contributions. The best fits produced ωp=2.1meV, τ0-1=9.5× 10-14s-1, λ =1.2, and EF=0.2eV for estimates of the plasmon frequency, the impurity scattering rate, electron-phonon coupling constant, and the Fermi energy, respectively.