47 research outputs found
Multiple Time Scales in Diffraction Measurements of Diffusive Surface Relaxation
We grew SrTiO3 on SrTiO3 (001) by pulsed laser deposition, using x-ray
scattering to monitor the growth in real time. The time-resolved small angle
scattering exhibits a well-defined length scale associated with the spacing
between unit cell high surface features. This length scale imposes a discrete
spectrum of Fourier components and rate constants upon the diffusion equation
solution, evident in multiple exponential relaxation of the "anti-Bragg"
diffracted intensity. An Arrhenius analysis of measured rate constants confirms
that they originate from a single activation energy.Comment: 4 pages, 3 figure
Observed Effects of a Changing Step-Edge Density on Thin-Film Growth Dynamics
We grew SrTiO3 on SrTiO3 [001] by pulsed laser deposition, while observing
x-ray diffraction at the (0 0 .5) position. The drop dI in the x-ray intensity
following a laser pulse contains information about plume-surface interactions.
Kinematic theory predicts dI/I = -4sigma(1-sigma), so that dI/I depends only on
the amount of deposited material sigma. In contrast, we observed experimentally
that |dI/I| < 4sigma(1-sigma), and that dI/I depends on the phase of x-ray
growth oscillations. The combined results suggest a fast smoothing mechanism
that depends on surface step-edge density.Comment: 4 figure
X-ray scattering from surfaces: discrete and continuous components of roughness
Incoherent surface scattering yields a statistical description of the
surface, due to the ensemble averaging over many independently sampled volumes.
Depending on the state of the surface and direction of the scattering vector
relative to the surface normal, the height distribution is discrete,
continuous, or a combination of the two. We present a treatment for the
influence of multimodal surface height distributions on Crystal Truncation Rod
scattering. The effects of a multimodal height distribution are especially
evident during in situ monitoring of layer-by-layer thin-film growth via Pulsed
Laser Deposition. We model the total height distribution as a convolution of
discrete and continuous components, resulting in a broadly applicable
parameterization of surface roughness which can be applied to other scattering
probes, such as electrons and neutrons. Convolution of such distributions could
potentially be applied to interface or chemical scattering. Here we find that
this analysis describes accurately our experimental studies of SrTiO3
annealing and homoepitaxial growth.Comment: 15 pages, 7 figure
Nearly strain-free heteroepitaxial system for fundamental studies of pulsed laser deposition: EuTiO3 on SrTiO3
High quality epitaxial thin-films of EuTiO3 have been grown on the (001)
surface of SrTiO3 using pulsed laser deposition. In situ x-ray reflectivity
measurements reveal that the growth is two-dimensional and enable real-time
monitoring of the film thickness and roughness during growth. The film
thickness, surface mosaic, surface roughness, and strain were characterized in
detail using ex situ x-ray diffraction. The thicnkess and composition were
confirmed with Rutherford Backscattering. The EuTiO3 films grow
two-dimensionally, epitaxially, pseudomorphically, with no measurable in-plane
lattice mismatch.Comment: 7 pages, 6 figure
The Yeast Spore Wall Enables Spores to Survive Passage through the Digestive Tract of Drosophila
In nature, yeasts are subject to predation by flies of the genus Drosophila. In response to nutritional starvation Saccharomyces cerevisiae differentiates into a dormant cell type, termed a spore, which is resistant to many types of environmental stress. The stress resistance of the spore is due primarily to a spore wall that is more elaborate than the vegetative cell wall. We report here that S. cerevisiae spores survive passage through the gut of Drosophila melanogaster. Constituents of the spore wall that distinguish it from the vegetative cell wall are necessary for this resistance. Ascospores of the distantly related yeast Schizosaccharomyces pombe also display resistance to digestion by D. melanogaster. These results suggest that the primary function of the yeast ascospore is as a cell type specialized for dispersion by insect vectors
The House Under a Crazy Star
Undergraduate student, year of graduation: 2020. Major: Architecture. Faculty: Judy Maloney.https://digitalcommons.risd.edu/bookcontest3rd2017/1143/thumbnail.jp
The Cat From Outer Space
Cover for The Cat From Outer Space, from the RISD Library Zine Collection.https://digitalcommons.risd.edu/specialcollections_zinecollection/1519/thumbnail.jp
The House Under a Crazy Star
Undergraduate student, year of graduation: 2020. Major: Architecture. Faculty: Judy Maloney.https://digitalcommons.risd.edu/bookcontest3rd2017/1144/thumbnail.jp