We report Y-89 and O-17 NMR measurements on YBa2Cu4O8 doped with Ni and Zn
impurities to investigate the effect of magnetic and nonmagnetic impurities
on superconductivity and on the normal state. We find that Zn induces extr
a NMR peaks in both the Y-89 and O-17 NMR spectra attributed to nuclei near
the Zn impurity while the Ni moment washes out the NMR signal from nuclei
near the Ni impurity. The Y-89 NMR shift from Y-89 sites nearest neighbor a
nd next-nearest neighbor to the Zn impurity can be modeled in terms of a Cu
rie-like NMR shift from Cu sites adjacent to the Zn impurity. However, the
temperature dependence of the NMR linewidths and modeling of the NMR spectr
a are inconsistent with a commensurate spin-density oscillation about a loc
al moment induced by Zn or about the Ni moment. We find that the normal-sta
te pseudogap is very locally suppressed over a range of just one lattice pa
rameter.