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.
20 Cool UT Science Stories from 2020 (Not about COVID-19)

20 Cool UT Science Stories from 2020 (Not about COVID-19)

University of Texas at Austin researchers have been instrumental in tracking the spread of the coronavirus, developing critical antibody treatments to save lives, developing diagnostics and creating the vaccines for SARS-CoV-2 that are currently being distributed around the world.

The College Welcomed New Faculty in 2020

The College Welcomed New Faculty in 2020

The College of Natural Sciences welcomed more than 20 leading researchers and captivating teachers as new tenured and tenure-track members of the faculty this academic year. Meet some of the newest scientists, mathematicians and technologists on our faculty.

Eleven Faculty Members Honored with Teaching Excellence Awards

Eleven Faculty Members Honored with Teaching Excellence Awards

The Teaching Excellence Award in the College of Natural Sciences seeks to promote and recognize excellent teaching in the College of Natural Sciences by honoring faculty members who have had a positive influence on the educational experience of our students. Read on to meet this year's winners.

Faculty Members Named to Professorships and Endowed Chairs

Faculty Members Named to Professorships and Endowed Chairs

Several College of Natural Sciences faculty members have been newly appointed to special professorships and endowed chairs at The University of Texas at Austin. These world-class researchers and excellent teachers are helping to shape the future of their fields in a variety of ways.

A Cornucopia of Newly Confirmed Gravitational Wave Detections

A Cornucopia of Newly Confirmed Gravitational Wave Detections

After months of thorough analysis, two international scientific teams, including scientists from The University of Texas at Austin, have released an updated catalog of gravitational wave detections, more than tripling the number of confirmed events. Each detection of a gravitational wave represents the discovery of a pair of extremely massive objects—black holes or neutron stars—far out in the universe smashing into each other, shaking the very fabric of space and time so much that sensitive detectors on Earth could feel them, sometimes more than a billion years later. 

Department of Energy Invests in High-power Laser Network, including UT Austin

Department of Energy Invests in High-power Laser Network, including UT Austin

The University of Texas at Austin with support from the U.S. Department of Energy will expand capabilities of the Texas Petawatt Laser, one of the highest-powered lasers in the world, with a broad range of applications for basic research, advanced manufacturing and medicine.

Tags:
Black Hole Swan Songs

Black Hole Swan Songs

Simulation of light emitted by a pair of supermassive black holes spiraling inward, viewed from above the plane of the disk. Credit: NASA's Goddard Space Flight Center

When scientists first detected gravitational waves, from the violent collision of two black holes 1.3 billion years in the past, the ripples in space-time made a distinctive chirp, followed by a signal like a ringing bell. (The signals actually had to be converted into frequencies we can hear.) Since that first detection in 2015, every black hole collision has sounded pretty much the same. But according to a new study based on computer simulations, black holes actually sing a more elaborate swan song.

Tags:
Science Faculty Featured in Newspaper’s Black in Academia Series

Science Faculty Featured in Newspaper’s Black in Academia Series

Over the summer, five faculty members in the College of Natural Sciences were spotlighted in a series by the Austin American-Statesman called Black in Academia. The purpose of the series was to explore the scientific research done by Black scientists at The University of Texas at Austin, as well as highlight the challenges they face in the academic world.

Predictive Science Research Gets Major Boost Thanks to the Department of Energy

Predictive Science Research Gets Major Boost Thanks to the Department of Energy

Predictive science is crucial to the prediction and modeling of extreme weather. This is a visualization of predicted storm surge on the Louisiana coast caused by Hurricane Laura, the Category 4 Atlantic hurricane that struck Texan shores earlier this year. Credit: Computational Hydraulics Group, Oden Institute.

Many of the decisions we make are now guided by computational simulations, from designing new spacecraft to predicting the spread of a pandemic. But it's not enough for a simulation model to just issue predictions. A decision-maker needs to know just how much those predictions can be trusted.

NSF-Funded Project Aims to Squeeze Larger Simulations onto Quantum Computers

NSF-Funded Project Aims to Squeeze Larger Simulations onto Quantum Computers

A trapped ion quantum computing system developed by Honeywell Quantum Solutions. Photo credit: Honeywell Quantum Solutions.

Quantum computers might someday make it possible to run simulations that are far too complex for conventional computers, enabling them for example to precisely model chemical reactions or the movement of electrons in materials, yielding better products from drugs to fertilizers to solar cells. Yet at the current pace of development, quantum computers powerful enough for these simulations may still be many years away.