The mission of SEES (Synchrotron Earth and Environmental Science) is to advance research and education in synchrotron-based Earth and environmental science to better understand our planet from the atmosphere to the core, to address societally relevant problems, and to train the next generation of scientists. SEES is responsible for the management, operation, and development of multiple user facilities hosted at four DOE-operated US synchrotrons: Advanced Photon Source (APS), Advanced Light Source (ALS), National Synchrotron Light Source II (NSLS-II), and Stanford Synchrotron Radiation Lightsource (SSRL).
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Recent Publications
Long-term relaxation of orientational disorder and structural modifications in molecular nitrogen at high pressure
Oliver Tschauner, Oded Navon, Christian Schmidt, Richard Wirth, Yaakov Weiss, Yael Kempe, Sergei Remennik, Wenjun Liu, Stella Chariton, Vitali B....
Insights on Arc Magmatic Systems Drawn from Natural Melt Inclusions and Crystallization Experiments at PH2O = 800 MPa under Oxidizing Condition
Janine L Andrys, Elizabeth Cottrell, Katherine A Kelley, Laura E Waters, Michelle L Coombs, “Insights on Arc Magmatic Systems Drawn from Natural...
Natural soils’ shear strength prediction: A morphological data-centric approach
Maher Omar, Mohamed G. Arab, Emran Alotaibi, Khalid A. Alshibli, Abdallah Shanableh, Hussein Elmehdi, Dima A.Hussien Malkawi, Ali Tahmaz, “Natural...
X-ray diagnostics for the cavity-based x-ray free-electron laser project
Peifan Liu, Paresh Pradhan, Antonino Miceli, Donald A. Walko, Deming Shu, Joseph Sullivan, Keenan Lang, Mark Rivers, Mario Balcazar, Kenan Li,...
Synthesizing realistic sand assemblies with denoising diffusion in latent space
Vlassis NN, Sun W, Alshibli KA, Regueiro RA. Synthesizing realistic sand assemblies with denoising diffusion in latent space. Int J Numer Anal...
Phase Transitions and Thermal Equation of State of Fe‐9wt.%Si Applied to the Moon and Mercury
Berrada, M., Chen, B., Chao, K.‐H.,Peckenpaugh, J., Wang, S., Zhang, D.,et al. (2024). Phase transitions and thermal equation of state of Fe‐9wt.%Si...