How much will heat, flooding, drought and storms increase as a result of human-induced climate change? In a groundbreaking ...

CU Boulder researchers have built high-performing optical microresonators, opening the door for new sensor technologies. At its simplest form, a microresonator is a tiny device that can trap light and ...

From Angry Birds to Subway Surfers, the early 2010s were filled with simple, addictive mobile games that captured the ...

A new Stanford-designed optical amplifier uses energy recycling in a resonator to deliver strong, low-noise amplification with far less power.

Many activities are currently progressing across the accelerator chain as the complex moves steadily towards full operation. In the injectors, beam ...

Looming behind Regenstein Library is a bronze, mushroom cloud–shaped sculpture—Henry Moore’s Nuclear Energy. Installed in 1967, it now seems like an inconspicuous part of the campus landscape. In ...

CU Boulder researchers have designed microscopic “racetracks” that trap and amplify light with exceptional efficiency. By using smooth curves inspired by highway engineering, they reduced energy loss ...

The Atacama Cosmology Telescope’s final data release confirms a major cosmic discrepancy and rules out many attempted solutions.

This is what success looks like at Louisville. Not satisfaction. Maintenance. Don’t expect any different from Louisville heading into Sunday’s 4 p.m. season finale against Notre Dame at the KFC ...

In the face of rising emissions from data centres, researchers are turning to micro-explosions in glass, and using DNA to solve big data's big problem.

David Eagleman is a neuroscientist at Stanford University and the author of eight books, most recently “Livewired.” ...