SLAC General Program
Showing 301-400 of 1,698 Results
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Robert Lawrence Coy
Research Technical Manager, SLAC National Accelerator Laboratory
Current Role at StanfordMechanical Engineering and Technical Support Division Director, Accelerator Directorate, SLAC National Accelerator Laboratory
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Eric Flint Cunningham
Lead Scientist, SLAC National Accelerator Laboratory
Current Role at StanfordLead of Laser Operations of the Linac Coherent Light Source (LCLS)
LCLS Operations Leadership Team member (LCLS)
Lead for the Advanced Laser Sources group in the Laser Science Department of the Science Research & Development Division of LCLS
SLAC Laser Safety Committee member -
Chandra Breanne Curry
Casual - Nonexempt, SLAC National Accelerator Laboratory
BioDr. Chandra Breanne Curry is a physicist specializing in ultra-intense laser plasma interactions and high energy density physics. She holds a Ph.D. in Electrical & Computer Engineering from the University of Alberta and a B.Sc. in Honours Physics from McGill. As the LaserNetUS Coordinator since Fall 2021, Dr. Curry leads initiatives advancing high-power laser research in North America. She manages the LaserNetUS program, ensuring alignment with U.S. Department of Energy priorities. With 32 publications and prestigious awards, including the University of Alberta President’s Doctoral Prize of Distinction and the NSERC Postgraduate Doctoral Scholarship, Dr. Curry is an emerging leader in her field. Additionally, she serves as Project Scientist for the Matter in Extreme Conditions Upgrade Project at SLAC National Accelerator Laboratory. Dr. Curry is dedicated to advancing scientific frontiers and fostering collaborative research, shaping the landscape of high-power laser research in North America.
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Nicholas A Czapla
Associate Scientist, SLAC National Accelerator Laboratory
Current Role at StanfordMatter in Extreme Conditions, Laser Scientist, Linac Coherent Light Source
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Georgi L. Dakovski
Lead Scientist, SLAC National Accelerator Laboratory
Current Role at StanfordSince ~2016 I have been involved in the design, construction and commissioning of new instrumentation at the Linac Coherent Light Source (LCLS) at SLAC National Accelerator Laboratory, aiming at developing novel time-resolved soft x-ray scattering methods. Currently I am the Instrument Lead for the qRIXS experimental endstation, which focuses on performing resonant inelastic x-ray experiment to study ultrafast dynamics in correlated electron systems.
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Diana Gamzina
Casual - Nonexempt, SLAC National Accelerator Laboratory
Current Role at StanfordStaff Scientist
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Sebastian Dehe
Associate 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
Casual - Nonexempt, SLAC National Accelerator Laboratory
Current Role at StanfordDirector, Electronics Engineering Division
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Taran Driver
Staff Scientist, SLAC National Accelerator Laboratory
BioI gained my PhD from the Blackett Laboratory Laser Consortium at Imperial College London, where my primary research project was the development of a new type of mass spectrometry for the structural analysis of protein, DNA and RNA molecules. This technology is known as two-dimensional partial-covariance mass spectrometry (2D PC MS). Here at Stanford I work at the Linac Coherent Light Source (LCLS), using the attosecond X-ray pulses produced by the newly developed XLEAP mode to study ultrafast electronic processes in molecules. We are developing and using new spectroscopic methods in the attosecond regime to observe the motion of electrons in complex molecular systems on their natural timescale. This helps us to understand how the coherent quantum dynamics of these electronic systems affect subsequent chemical motion.
