Ultracold cryogenic TEM with liquid helium and high stability - PMC
: High-energy electron beams can damage sensitive samples; ultracold temperatures help mitigate this "knock-on" damage during imaging. maya gates
: Her collaborative research has aimed to achieve imaging resolutions below while using liquid helium cryogens. Notable Publications Ultracold cryogenic TEM with liquid helium and high
Maya Gates is a researcher known for her work in and materials science , specifically focusing on advancing high-resolution imaging through cryogenic transmission electron microscopy (TEM) . Her work often addresses the technical challenges of maintaining sample stability at ultracold temperatures to study quantum materials and biological structures. Academic and Professional Background Her work often addresses the technical challenges of
Maya Gates pursued her academic career at the within the Department of Mechanical Engineering . Her research is often characterized by interdisciplinary collaboration, frequently partnering with institutions like the Rowland Institute at Harvard and the Michigan Center for Materials Characterization . Key Research: Ultracold Cryogenic TEM