Button to scroll to the top of the page.

News

From the College of Natural Sciences
This tag contain 1 private blog which isn't listed here.
Can General Relativity, at 100, Withstand Some Holes?

Can General Relativity, at 100, Withstand Some Holes?

This is the first of a three-part series on general relativity. 

In November 1915, Albert Einstein stood before his colleagues in the Prussian Academy of Sciences and unveiled a set of equations that would forever change the way we see the universe. The Theory of General Relativity, Einstein's description of gravity, explained the motions of everything we see in the universe.

UT Austin Physicist Wins Award at Breakthrough Prize Ceremony

UT Austin Physicist Wins Award at Breakthrough Prize Ceremony

Raphael Flauger, an assistant professor in the Department of Physics, has won a prestigious award for early career achievement for his outstanding contributions to theoretical cosmology. At last night's Breakthrough Prize Awards Ceremony, sometimes called "The Oscars of Science," Flauger received the New Horizons in Physics Prize as a young scientist who has already produced important work in fundamental physics.

Much in the Works at the Physics Machine Shop

Much in the Works at the Physics Machine Shop

Pieces of detectors for particle colliders and neuroscience research line the shelves in the UT Austin Physics Machine Shop. The air constantly hums with the noise of advanced machines at work.

Tags:
Grad Student Aims to Shape Understanding of Universe

Grad Student Aims to Shape Understanding of Universe

In honor of the 100th anniversary of the first graduate student earning a degree at UT Austin and our new Discovery Fellows campaign, we're launching a series of posts to introduce you to current graduate students from across the College of Natural Sciences.

New Nanostructure Could Lead to Advanced Optical Devices

New Nanostructure Could Lead to Advanced Optical Devices

When a quantum dot (right) is placed next to it, the light scattering properties of a much larger gold nanoparticle (center) change. A polarized light shining on the nanoparticle generates an electric field (surrounding bands of color).

Physicists Xiaoqin "Elaine" Li, Gennady Shvets and their colleagues have been exploring new ways to manipulate light on the nanoscale. In a paper published this week in the journal Proceedings of the National Academy of Sciences, they describe work that could lead to better biological sensors and improved devices for optical communications and computing.

College Welcomes New Faculty in New Academic Year

College Welcomes New Faculty in New Academic Year

The College of Natural Sciences welcomes 11 new faculty this fall. Whether searching for evidence of exotic new physics, enabling the creation of personal robots, or addressing critical problems in cancer research, these industrious and innovative faculty members build on the college's reputation for pioneering research and research-based teaching.

Keck Foundation Awards $1.5 Million for New Method to Cool Atoms and for Student Research

Keck Foundation Awards $1.5 Million for New Method to Cool Atoms and for Student Research

Graduate student Erik Anciaux works on the “Ultra-Bright Atom Laser” project in the Raizen lab.

The W. M. Keck Foundation has awarded scientists at The University of Texas at Austin two grants totaling $1.5 million to develop a powerful, alternative method for cooling atoms and involve more undergraduate students in using new advanced technologies for research.

New Device Bends Light at Sharp Angles

New Device Bends Light at Sharp Angles

Most modern computers and communications devices use electrons to transmit and process information. But when they're crammed onto smaller and smaller devices, electrons become unruly, generating a lot of heat. Scientists have long dreamed of replacing electrons with particles of light called photons. Because photons don't generate much heat and move at light speed, computer chips could theoretically be made much smaller and faster than current chips.