2007 - Fellow of American Physical Society (APS) Citation For seminal materials physics contributions to the structure and synthesis of quasicrystals, nanocrystals formed by ionimplantation, and epitaxial hightemperature superconductors using advanced synchrotron xray techniques
His main research concerns Epitaxy, Condensed matter physics, Thin film, Optoelectronics and Superconductivity. His Epitaxy study incorporates themes from Crystallography, Single crystal, Texture and Substrate. His work deals with themes such as Relaxor ferroelectric and Ferroelectricity, which intersect with Condensed matter physics.
His work focuses on many connections between Thin film and other disciplines, such as Analytical chemistry, that overlap with his field of interest in Magnetization, Doping and Ferromagnetism. His study in Optoelectronics is interdisciplinary in nature, drawing from both Pulsed laser deposition and Nanotechnology. When carried out as part of a general Superconductivity research project, his work on High-temperature superconductivity is frequently linked to work in Inorganic compound, therefore connecting diverse disciplines of study.
John D. Budai mainly focuses on Epitaxy, Thin film, Condensed matter physics, Analytical chemistry and Crystallography. His Epitaxy research incorporates elements of Optoelectronics, Oxide, Superconductivity and Substrate. His research in Thin film intersects with topics in Crystal growth, Single crystal, Mineralogy and Crystallite.
In his study, which falls under the umbrella issue of Condensed matter physics, Optics is strongly linked to Grain boundary. His Analytical chemistry study deals with Annealing intersecting with Nanocrystal and Chemical engineering. His Crystallography research is multidisciplinary, relying on both X-ray crystallography and Ion implantation.
Condensed matter physics, Neutron scattering, Nanotechnology, Crystallography and Phonon are his primary areas of study. John D. Budai has included themes like Oxide, Relaxor ferroelectric, Ferroelectricity, Polarization and Metal–insulator transition in his Condensed matter physics study. In the field of Nanotechnology, his study on Thin film overlaps with subjects such as Ternary operation.
His Thin film study combines topics in areas such as Ion implantation, Composite material, Poling and Multiferroics. His Crystallography research includes elements of X-ray crystallography and Epitaxy, Epitaxial thin film. His Epitaxy study also includes
His scientific interests lie mostly in Condensed matter physics, Nanotechnology, Monoclinic crystal system, Phonon and Polarization. His Condensed matter physics research incorporates themes from Oxide, Epitaxy, Relaxor ferroelectric, Ferroelectricity and Metal–insulator transition. The various areas that John D. Budai examines in his Epitaxy study include Crystallography and Sapphire.
John D. Budai studies Nanotechnology, focusing on Thin film in particular. His Thin film research is multidisciplinary, incorporating perspectives in Bismuth ferrite, Multiferroics, Magnetization and Poling. The concepts of his Monoclinic crystal system study are interwoven with issues in Tetragonal crystal system, Phase, Perpendicular and Birefringence.
High critical current density superconducting tapes by epitaxial deposition of YBa2Cu3Ox thick films on biaxially textured metals
A. Goyal;D.P. Norton;J.D. Budai;M. Paranthaman.
Applied Physics Letters (1996)
Epitaxial YBa2Cu3O7 on Biaxially Textured Nickel (001): An Approach to Superconducting Tapes with High Critical Current Density
David P. Norton;Amit Goyal;John D. Budai;David K. Christen.
Three-dimensional X-ray structural microscopy with submicrometre resolution
B. C. Larson;Wenge Yang;G. E. Ice;J. D. Budai.
Advances in wide bandgap materials for semiconductor spintronics
S.J. Pearton;C.R. Abernathy;D.P. Norton;A.F. Hebard.
Materials Science & Engineering R-reports (2003)
New yellow Ba0.93Eu0.07Al2O4 phosphor for warm-white light-emitting diodes through single-emitting-center conversion
Xufan Li;John D Budai;Feng Liu;Jane Y Howe.
Light-Science & Applications (2013)
Optical and structural properties of ZnO films deposited on GaAs by pulsed laser deposition
Y. R. Ryu;S. Zhu;J. D. Budai;H. R. Chandrasekhar.
Journal of Applied Physics (2000)
Superconductivity in nonsymmetric epitaxial YBa2Cu3O7-x/PrBa2Cu3O7-x superlattices: The superconducting behavior of Cu-O bilayers.
Douglas H. Lowndes;David P. Norton;J. D. Budai.
Physical Review Letters (1990)
Effect of oxygen pressure on the synthesis of YBa2Cu3O7-x thin films by post-deposition annealing
R. Feenstra;T. B. Lindemer;J. D. Budai;M. D. Galloway.
Journal of Applied Physics (1991)
Spectroscopic ellipsometry of thin film and bulk anatase (TiO2)
G. E. Jellison;L. A. Boatner;J. D. Budai;B.-S. Jeong.
Journal of Applied Physics (2003)
Ferromagnetism in cobalt-implanted ZnO
D. P. Norton;M. E. Overberg;S. J. Pearton;K. Pruessner.
Applied Physics Letters (2003)
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