PREPARATION OF BISRCACUO THIN-FILMS BY ATOMIC LAYER-BY-LAYER MOLECULAR-BEAM-EPITAXY AND HIGH-RESOLUTION TRANSMISSION ELECTRON-MICROSCOPY ANALYSIS OF THE FILM SUBSTRATE INTERFACE AND OF GROWTH DEFECTS/
J. Dressen et al., PREPARATION OF BISRCACUO THIN-FILMS BY ATOMIC LAYER-BY-LAYER MOLECULAR-BEAM-EPITAXY AND HIGH-RESOLUTION TRANSMISSION ELECTRON-MICROSCOPY ANALYSIS OF THE FILM SUBSTRATE INTERFACE AND OF GROWTH DEFECTS/, Journal of alloys and compounds, 251(1-2), 1997, pp. 44-47
By means of atomic layer-by-layer molecular-beam-epitaxy (MBE) we have
prepared BiSrCaCuO thin films and vertical S-N-S (2212/2201/2212) jun
ctions on SrTiO3 and LaAlO3 substrates at 720 degrees C in 2.10(-5) mb
ar ozone pressure. 40 nm thick Bi-2212 films show an inductively measu
red T-c of 84 K. The period of RHEED intensity oscillations, observed
during growth, is correlated with the growth of half a unit cell. By m
eans of HRTEM we have investigated the defect structure of the atomic
layer-by-layer grown films. The films contain twins and interfacial di
slocations. and some precipitates. Most prominent are Bi-rich precipit
ates of various size. interfacial dislocations were found to be locate
d in the films at a distance of up to 3 nm from the film/substrate int
erface. The analysis showed that the film/substrate interface in the f
ilms is considerably sharper and has a better planarity, if the layer-
by-layer MBE process starts with a Sr-O layer instead of a Bi-O layer.