A Cornell team is playing a key role in the Muon g-2 Collaboration by designing some of the technology that captures the muon data, and helping to radically improve the precision of the measurements.
A Cornell research team has developed a new way to design complex microscale machines, one that draws inspiration from the operation of proteins and hummingbird beaks.
Many medical studies record a patient’s race using only the broad categories from the U.S. Census, which may conceal racial health disparities, a new Cornell-led study reports.
Geoscientists have long thought that water helps to drive volcanoes to erupt. Now, thanks to new tools at Cornell, scientists show that carbon dioxide can induce explosive eruptions.
An interdisciplinary Cornell team has identified a new mechanism regulating tumor growth in the skeleton, the primary site of breast cancer metastasis: mineralization of the bone matrix.
The day-long event will feature talks from seven field scholars, including this year’s recipient of the Distinguished Alumni award, Karen Bandeen-Roche, chair of the Department of Biostatistics at the Johns Hopkins Bloomberg School of Public Health.
Cornell researchers used magnetic imaging to obtain the first direct visualization of how electrons flow in quantum anomalous Hall insulators, and by doing so they discovered the transport current moves through the interior of the material.
