SLAC National Accelerator Laboratory
Showing 21-40 of 98 Results
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Igor Daniel de Araujo Evangelista
Postdoctoral Scholar, Photon Science, SLAC
BioDr. Evangelista's primary research focus lies in computational modeling and theoretical analysis of semiconductor materials using advanced quantum mechanical methods, including Density Functional Theory, Quantum Monte Carlo, and ab-initio Molecular Dynamics. Evangelista investigates the electronic, structural, and mechanical properties of materials, collaborating closely with experimental groups to bridge theoretical predictions with empirical results. He is also interested in the development of empirical potentials and enhancing materials modeling through the application of machine learning techniques.
Evangelista entered the Department of Materials Science and Engineering at the University of Delaware as a Ph.D. candidate in 2018, after completing an master degree in Physics 2016-2018 at Federal Fluminense University (Brazil). Recent work includes collaborations with experimental groups to bridge theoretical predictions with empirical results, as well as applying machine learning to creating of empirical potentials to accelerate materials modeling. Evangelista has also contributed to understanding electron mobility in metal-oxide semiconductors and strain effects in two-dimensional materials. These studies showcase his expertise in electronic structure and materials design for next-generation semiconductor technologies. -
Sebastian Dehe
Project Scientist, SLAC National Accelerator Laboratory
BioProject scientist in the Bio department at the LCLS (SLAC National Accelerator Laboratory). Joined LCLS 2022 as a research associate, after obtaining a PhD (Dr.-Ing.) at TU Darmstadt in 2021, focusing on electrokinetic phenomena in fluid flow. At LCLS, focusing on development of droplet on demand sample delivery methods for time-resolved experiments, both for optical pump and mixing experiments.
Skills and experience in fluid mechanics and X-ray science: Design, control and optimization of DoD sample delivery platform at LCLS. Microfluidic and electric equipment control and operation. Laboratory based experiments (high-speed imaging, brightfield - and fluorescence imaging and evaluation. X-ray based measurement techniques: Solution phase scattering experiments, X-ray spectroscopy. Computational modeling using COMSOL Multiphysics. -
Joseph H. Delong
Research Technical Manager, SLAC National Accelerator Laboratory
Current Role at StanfordDirector, Electronics Engineering Division
