DOPING DEPENDENCE OF THE A-B-PLANE OPTICAL CONDUCTIVITY OF SINGLE-CRYSTAL LA2-XSRXNIO4+DELTA

Results of room-temperature a-b-plane optical-reflection studies Of La 2-xSrxNiO4+delta (delta=0.0; x=0, 0.05, 0.10, 0.20, 0.21, and 8=0.085; x=0) are presented and cover the photon energy range 0.005<omega<6 eV . A Kramers-Kronig analysis is used to compute the optical conductivit y sigma(omega) and energy-loss function Im(-1/epsilon(omega)). The dop ing dependence of the TO and LO a-b-plane phonon modes, anomalous midi nfrared absorption (mid-IR band), and interband transitions are discus sed. The mid-IR band (band maximum omega(m) approximately 0.5 eV) is f ound to be similar to that observed in the isostructural materials La2 -xSrxCuO4, and is identified with photon-assisted hopping of small pol arons. A microscopic theory developed by Reik is used to obtain polaro n parameters whose values are compared to those obtained similarly for other small-polaron materials.