SLAC National Accelerator Laboratory
Showing 1,551-1,600 of 1,912 Results
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Ben Sherwin
Ph.D. Student in Physics, admitted Autumn 2024
Graduate - Reader/Grader, Physics
Casual - Nonexempt, SLAC National Accelerator LaboratoryBioI am a Physics PhD student and NSF Graduate Research Fellow at Stanford, advised by Josh Frieman. I am interested in theoretical and observational cosmology, specifically in cross-correlations between the Cosmic Microwave Background and tracers of large-scale structure.
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Dongjae Shin
Postdoctoral Scholar, Photon Science, SLAC
BioMy current research focuses on the design of catalytic materials. I have studied atomistic phenomena on catalytic surfaces to develop materials with improved catalytic capability under the philosophy of rational design. To achieve this goal, I use computational approaches, e.g., first-principles calculations and artificial intelligence (AI). Applications include heterogeneous catalysis for exhaust emission control, hydrogen production, and utilization of emission gas to realize carbon neutralization.
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Elliott Slaughter
Staff Scientist, SLAC National Accelerator Laboratory
BioFor information on Elliott Slaughter, please see his home page at: https://elliottslaughter.com/
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Dimosthenis Sokaras
Senior Scientist, SLAC National Accelerator Laboratory
BioDimosthenis Sokaras is the Department Head for Energy Sciences XAS at the Stanford Synchrotron Radiation Lightsource (SSRL), part of SLAC National Accelerator Laboratory. His efforts focus on leveraging and expanding SSRL’s capabilities to address emerging research priorities of the U.S. Department of Energy, with emphasis on energy conversion, catalysis, and next-generation technologies for industrial and national competitiveness. His work centers on the development and application of novel X-ray tools -including high energy resolution, time-resolved, and operando techniques- that enable experimental studies under realistic working conditions.
Together with his team, he bridges synthesis, performance evaluation, and advanced diagnostics with high-accuracy theoretical calculations on DOE supercomputing platforms. This integrated approach enables the interpretation of complex spectral signatures and the identification of transient and reactive states that remain inaccessible to conventional methods. Their efforts deepen fundamental understanding and support the design of more effective materials for catalysis and energy conversion.
Dr. Sokaras plays a leading role in shaping SSRL’s strategic direction and strengthening its synergy with other SLAC programs and DOE national initiatives. Mentorship and team development are central to his role, and he actively builds cross-disciplinary teams that expand the facility’s scientific reach and long-term impact.
