The temperature dependences of the transient photoinduced conductivity at different light levels in single crystals of YBa2Cu3O7-' and ultrathin (40-) epitaxial films of DyBa2Cu3O7-' with fixed ' are qualitatively and quantitatively similar to those of the doping-induced conductivity in YBa2Cu3O7-' and DyBa2Cu3O7-' with different oxygen content ', indicative of photodoping over a wide range of resistivities. Signatures of the photoinduced transition to metallic behavior are observed at light intensities greater than 1015 photons/cm2. At these high levels of photoexcitation, the thermal activation energy approaches zero and a minimum appears in the temperature dependence of the photoresistivity below 100 K. The resistivity minimum, reminiscent of the onset of superconductivity in inhomogeneous samples and in granular superconductors, is interpreted in terms of a phase separation of the photogenerated carriers and metallic-droplet formation subsequent to photoexcitation. A modest longitudinal magnetic field (0.5 T) reduces both the resistivity minimum and the superlinear contribution to the transient photoconductance. For oxygen levels close to the metal-insulator transition ('0.6), the lifetime of the photoexcited state is enhanced by nearly three orders of magnitude at high excitation levels, indicative of metastability.
|Original language||English (US)|
|Number of pages||14|
|Journal||Physical Review B|
|State||Published - 1992|