Publications by authors named "Nathaniel Feldberg"
Article Synopsis
- The study explores how plasma-assisted molecular beam epitaxy is used to grow Gallium Nitride (GaN) on muscovite mica, revealing unexpected growth patterns despite initial symmetry mismatches.
- Utilizing various advanced imaging and analysis techniques, it was determined that GaN epitaxially aligns with mica, especially with specific directional parallels.
- The results show a mix of wurtzite and zinc blende crystallographic phases in GaN layers, with the potential for producing almost pure zinc blende phase at higher temperatures, indicating a unique nucleation process on mica.
We present evidence, from theory and experiment, that ZnSnN_{2} and MgSnN_{2} can be used to match the band gap of InGaN without alloying-by exploiting cation disorder in a controlled fashion. We base this on the determination of S, the long-range order parameter of the cation sublattice, for a series of epitaxial thin films of ZnSnN_{2} and MgSnN_{2} using three different techniques: x-ray diffraction, Raman spectroscopy, and in situ electron diffraction. We observe a linear relationship between S^{2} and the optical band gap of both ZnSnN_{2} (1.
View Article and Find Full Text PDFThe formation of a self-limited metallic bilayer is reported during the growth of GaN by plasma-assisted molecular beam epitaxy on graphene on (0001) SiC. Depending on growth conditions, this layer may consist of either Ga or In, which gets intercalated between graphene and the SiC surface. Diffusion of metal atoms is eased by steps at SiC surface and N plasma induced defects in the graphene layer.
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