Sort by
Refine Your Search
-
"plants-as-factories" principle, wherein biofuels are synthesized directly within plant stems. Our collaborative team, comprising various organizations, is committed to metabolic engineering of plants
-
engineering teams to evaluate energy deposition, power losses, total ionizing dose, and other radiation-relevant quantities across the Electron Storage Ring (ESR), Hadron Storage Ring (HSR), and Rapid Cycling
-
Light Source II (NSLS-II). NSLS-II is a user facility dedicated to helping researchers from the U.S. and abroad bring cutting-edge synchrotron technology and automation to bear on society’s most pressing
-
microscopy, modeling, materials theory, and nanofabrication. • You will carry out impactful nanomaterial research, publish papers, and give external presentations on your work. Position Requirements: • You
-
research findings via paper publications and external presentations. Required Knowledge, Skills, and Abilities: You have a Ph.D. in a relevant discipline (Materials Science, Physics, Electrical Engineering
-
with all our collaborators in the EIC group and the theory group at BNL will be essential for progress on all aspects of this program. Required Knowledge, Skills, and Abilities: Ph.D. in Nuclear
-
. POSITION REQUIREMENTS: Required Knowledge, Skills, and Abilities: Ph.D. in Electrical Engineering, Computer Engineering, Computer Science, Physics, Material Science, or related discipline. Demonstrated
-
and simulation code BMAD. Essential Duties and Responsibilities: As part of a small team, optimize the electron beam spin polarization of the ESR by minimizing depolarizing effects through analytical
-
regimes through training and engagement. The Radiation Detection and Emerging Safeguards Technologies (RD&EST) Group pursues research and development in radiation detection technology and applications in
-
. The program involves close collaborations with experts in theory and data science and will benefit from frequent interactions with principal investigators at the National Synchrotron Light Source II (NSLS-II