Eight Graduate Students Receive Wu Scholarships
Eight graduate students, including four studying in the College of Arts and Sciences, were awarded 2022 Hsien and Daisy Yen Wu Scholarships.
Read moreEight graduate students, including four studying in the College of Arts and Sciences, were awarded 2022 Hsien and Daisy Yen Wu Scholarships.
Read morePhysics professor Itai Cohen is among four Cornell faculty members who received the 2022 Kappa Delta Ann Doner Vaughn Award for their collaborative research on the mechanics and composition of articular cartilage and its relevance to disease.
Read moreThe event will explore the nanoscale and quantum innovations shaping our future. You can join online at eCornell!
Read moreSeven exceptional early-career scholars will be awarded three-year fellowships to pursue independent research in the arts and humanities, social sciences and natural sciences.
Read moreA team of researchers including Conrad Smart, physics doctoral candidate, interviewed 45 stakeholders from academic institutions about their perspectives on career development for doctoral students. Smart used his skills in data visualization techniques to develop the stakeholder tool.
Read morePotential applications of this research include high-performance topological quantum computers, quantum information processing, high-sensitivity sensors, and perfect spin filters.
Read moreSeven Cornell faculty members have been elected fellows of the American Association for the Advancement of Science, the world’s largest general scientific society. This year's fellows, 564 in all, will be honored at a virtual event Feb. 19.
Read moreResearch done at Cornell has uncovered the first potential signs of spin-orbit resonances in binary black holes, a step toward understanding the mechanisms of supernovas and other big questions in astrophysics.
Read moreThe finding shows there is potential for instructional interventions that could correct the gender inequity in physics labs.
Read moreNew nanophotonic tweezers developed by Cornell researchers can stretch and unzip DNA molecules as well as disrupt and map protein-DNA interactions, paving the way for commercial availability.
Read more