To prep for missions to Jupiter’s icy moon Europa, Britney Schmidt, associate professor of astronomy and earth and atmospheric sciences, is studying Antarctica’s ice and oceans.
Cornell researchers used advanced atomic modeling to explore the ways environment can influence the growth of cracks in alloys such as aluminum and steel – knowledge that could help engineers better predict, and possibly postpone, the failure of structures.
The rocky surface of Earth’s geology may provide a buffer for climate change to absorb excess carbon, according to a new Cornell paper in Global Biogeochemical Cycles.
Researchers created a system that uses combustion to inflate silicone membrane “dots,” which could someday serve as a dynamic braille display for electronics.
Considered an ultra-hot Jupiter – a place where iron gets vaporized, condenses on the night side and then falls from the sky like rain – the fiery, inferno-like WASP-76b exoplanet may be even more sizzling than scientists had realized.
A new Cornell study finds that next-generation telescopes used to see exoplanets could confuse Earth-like planets with other types of planets in the same solar system.
Fumbling to find flashlights during blackouts soon may be a memory, as quantum computing and AI may quickly solve an electric grid’s hiccups so fast, humans may not notice.
Cornell is one of only seven institutions across the U.S. that will receive a funding award from the National Institutes of Health through a program aimed at increasing minority faculty in the biomedical sciences.
From quantifying climate vulnerability in Haiti to documenting the ecological calendars of Indigenous and rural communities, Cornell student projects aim to reduce climate impacts around the world.
Physicist Eun-Ah Kim is leading the way toward applications of quantum mechanics, including the discovery of new quantum materials and the development of quantum computing.
New research from the College of Engineering lays out in detail why ranked-choice voting, combined with multi-member legislative districts, promotes fair representation, particularly when it comes to blunting the practice of gerrymandering.
Cornell researchers created cell-size robots that can be powered and steered by ultrasound waves. Despite their tiny size, these micro-robotic swimmers could be a formidable new tool for targeted drug delivery.
