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From the College of Natural Sciences
As Hunt for Sterile Neutrino Continues, Mystery Deepens

As Hunt for Sterile Neutrino Continues, Mystery Deepens

Physicists have hypothesized the existence of fundamental particles called sterile neutrinos for decades and a couple of experiments have even caught possible hints of them. However, according to new results from two major international consortia, the chances that these indications were right and that these particles actually exist are now much slimmer.

New Superconductor Could Pave Way to Practical Quantum Computers

New Superconductor Could Pave Way to Practical Quantum Computers

Scientists at the University of Texas at Austin have developed a new superconducting material that might allow the construction of quantum computers that are more resistant to outside noise, such as electromagnetic interference.

Supercomputers Fire Lasers to Shoot Gamma Ray Beam

Supercomputers Fire Lasers to Shoot Gamma Ray Beam

A team of scientists at UT Austin used computer simulations to find a possible new source of gamma rays generated from tabletop lasers. Pictured in front of the Stampede supercomputer left to right: Alex Arefiev, research scientist, Institute for Fusion Studies and at the Center for High Energy Density Science, UT Austin; Toma Toncian, assistant director, Center for High Energy Density Science, UT Austin; David Stark, recently completed PhD, UT Austin (now at Los Alamos National Laboratory).

Ever play with a magnifying lens as a kid? Imagine a lens as big as the Earth. Now focus sunlight down to a pencil tip. That still wouldn't be good enough for what some Texas scientists have in mind. They want to make light even 500 times more intense. And they say it could open the door to the most powerful radiation in the universe: gamma rays.

Can Kilic Tackles Dark Matter, Particle Physics

Can Kilic Tackles Dark Matter, Particle Physics

​Dr. Can Kilic, an assistant professor and researcher in the Department of Physics at The University of Texas at Austin, specializes in theoretical particle physics, the Standard Model, and dark matter models. Dr. Kilic sat with the UT Physics newswriting team to discuss his research, his teaching, and his hopes for the future of science.

Pyramid Probe (Audio)

Pyramid Probe (Audio)

What would you do if you had Superman's x-ray vision? In today's episode of the Point of Discovery Podcast, we talk to a physicist about how he's using his superhuman powers to explore the insides of ancient Mayan pyramids without digging.

Peter Onyisi is Having a Smashing Time Hunting Particles

Peter Onyisi is Having a Smashing Time Hunting Particles

Physicist Peter Onyisi, assistant professor in the College of Natural Sciences, was part of a team at CERN working with the Large Hadron Collider (LHC) that discovered something that looked like the Higgs boson particle.

Capping Decades of Searching, Scientists Observe Elusive Particle That is its own Antiparticle

Capping Decades of Searching, Scientists Observe Elusive Particle That is its own Antiparticle

Scientists at The University of Texas at Austin and Princeton University have observed an exotic particle that behaves simultaneously like matter and antimatter, a breakthrough that could eventually enable powerful computers based on quantum mechanics.

Backstage Pass to the Texas Pettawatt Laser

Backstage Pass to the Texas Pettawatt Laser

Science writer and UT Austin alumnus Joe Hanson (Ph.D. '13) takes us on a tour of the Texas Center for High Intensity Laser Science, home of the Texas Pettawatt Laser. Photos by Robert Schults evoke the awe and mystery of this fundamental research. Read the article in the July/August 2014 edition of the Alcalde: 1,000,000,000,000,000 Wat...
The Ultimate in High Speed Cinematography Reveals Laser Gymnastics at Speed of Light

The Ultimate in High Speed Cinematography Reveals Laser Gymnastics at Speed of Light

Scientists in the Department of Physics have captured the ultimate high-speed movie of a laser pulse as it zips through a piece of glass at the speed of light. The new imaging technique will help scientists understand how intense laser pulses propagate through air, glass fibers and fusion pellets, and thus could have applications in atmospheric chemical analysis, fiber optic communications, and power generation.

Six Top Stories that Captured Imaginations Far and Wide

Six Top Stories that Captured Imaginations Far and Wide

It was a big year for science in the College of Natural Sciences. "Aren't they all?" you might be asking yourself. Point taken. Of course our faculty, postdocs, staff and students are at the forefront of discovery.

Though not all of the amazing work happening in the labs around this campus spread across the Interwebs like crazy ants (ahem), here we present the top six stories of 2013 that did. These are the stories that went particularly viral, catching the eyes and minds of many. Hook 'em!