Cation vacancies on both sublattices (V(Ti), V(Sr)) have been identified in homoepitaxial pulsed laser deposited SrTiO3 films using high intensity variable energy positron annihilation lifetime spectroscopy (PALS) measurements. Film nonstoichiometry was varied by varying laser fluence. PALS showed that on increasing the fluence above the Ti/Sr∼1 value, the concentration ratio [V(Sr)]/[V(Ti)] systematically increased. Reducing the fluence into the Ti-poor region below resulted in additional vacancy cluster defect formation. Vacancy concentrations greater than ∼50 ppm were observed in all films.
Vacancy defects in thin film laser ablated SrTiO 3 on SrTiO 3 were identified using variable energy positron annihilation lifetime measurements. Strontium vacancy related defects were the dominant positron traps and, apart from in the top ~ 50 nm, were found to be uniformly distributed. The surface layer showed an increase in annihilation from larger open-volume defects, large vacancy clusters or nanovoids.
Negative fragment ion formation from SF6 has been studied
using synchrotron radiation within the energy range 20-205 eV.
The fragment ions F-, F2-, S- and SF- have been observed. It is shown that shape resonance and
unoccupied valence orbitals play an important role in negative
ion formation after photoexcitation of inner valence and S 2p
electrons. The negative ion yields after photoexcitation of a S
2p core electron show evidence of localization of the shape
resonance orbitals around the central S atom. The yields of
F- and F2- in the outer valence and inner
valence energy regions not only confirm that ion pair formation
occurs via predissociating Rydberg states but also demonstrate,
for the first time, the importance of intravalence transitions.
The dissociative photoionization of CH4 and CD4 has been studied using synchrotron radiation within the energy range of 12-60 eV. The mass spectra of secondary CHn+/CDn+ ions have been found to display significant isotope effects and to depend on the target gas temperature. The kinetic energy spectra of the fragment protons and deuterons have also been determined and it is shown that, in addition to direct photoionization, intermediate, superexcited states play an important role in the photodissociative ionization process.
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