Science & Technology
CU ¶¶Òõ´«Ã½ÔÚÏß and two other CU campuses have been chosen from a nationwide search to partner with Medtronic—a global leader in health care technology—in a strategic research agreement aimed at accelerating transformative health innovations.
In a recent study, a team of physicists at CU ¶¶Òõ´«Ã½ÔÚÏß demonstrated the ability to align a laser-ionized plasma source with the electron beam in an ultra-precise and automated way, paving the way for future developments in making plasma wakefield accelerators a reality.
A team of engineers has developed a new device that works like a laser but, instead of light, generates incredibly small vibrations called surface acoustic waves.
CU researchers have created shape-shifting microparticles that change their shape in response to environmental factors for self-directed propulsion and navigation.
CU ¶¶Òõ´«Ã½ÔÚÏß researchers have developed a laser-based imaging method called stimulated Raman scattering to improve the performance of desalination plants by allowing real-time detection of membrane fouling. The advance could help make desalination more efficient and reliable as global demand for clean water rises.
Researchers have developed a device that can precisely control laser light using a fraction of the power and space required today. This tiny device could unlock quantum computers capable of solving problems far beyond the reach of today's technologies.
Plus testing atomic clocks at 14,000 feet, AI ghosts and a new kind of "Band-Aid" for healing wounds
CU ¶¶Òõ´«Ã½ÔÚÏß alumni Judy and Rod McKeever donated a tree—once considered extinct—to the Department of Ecology and Evolutionary Biology greenhouse, giving students a living example of modern conservation.
CU researchers are using ultrasound with particles that respond to sound waves to soften tumors and make them easier to treat.
CU researchers are setting fires inside wind tunnels to gain a better understanding of how fire spreads across different terrain.