After expanding to its peak size about 11 billion years from now, the universe will begin to contract – snapping back like a rubber band to a single point at the end, according to a Cornell physicist.
A Cornell researcher and collaborators have developed a machine-learning model that encapsulates and quantifies the valuable intuition of human experts in the quest to discover new quantum materials.
Ithaca Community Recovery schedules more than 200 meetings a month for 35 groups - a new platform designed by project team Hack4Impact will make it easier to populate, track and edit the calendar.
A new study revealed how a deadly form of pancreatic cancer enters the bloodstream, solving a long-standing mystery of how the disease spreads and identifying a promising target for therapy.
Drawing on cutting-edge technology and interdisciplinary expertise, researchers are launching Menopause Health Engineering, a new initiative to uncover how menopause shapes health and disease.
As the need to find climate change solutions becomes ever more urgent, Cornell chemists are leading the way with innovative and far-reaching discoveries, including better electric batteries, carbon capture technologies, renewable plastics and improvements in solar cells.
By combining the design principles and materials of soft robotics with microscale combustions, researchers created a high-resolution electronic tactile display that can operate in messy, unpredictable environments.
A new $5 million initiative, funded by the Astera Institute with experimental work conducted at the Cornell High Energy Synchrotron Source, aims to make diffuse scattering accessible to the public and the broader scientific community.