The Department of Astronomy at the University of Texas is one of the largest in the United States, with twenty active teaching faculty, twelve research scientists, a large number of research associates and postdoctoral fellows, over 40 graduate students, and about 100 undergraduate students. The research activities of the faculty and staff span virtually all of modern astronomy, from cosmology, first stars, galaxy formation and evolution, supernovae, black holes, and gamma-ray bursts, to our solar system, extrasolar planetary systems, star and planet formation and evolution, and the interstellar medium.
A low student-teacher ratio ensures close work with faculty and researchers in the student's area of interest. Many faculty members maintain active international collaborations, and frequently use the world's premier ground and space based observatories. Collaborations are also common with groups in physics, aerospace engineering, electrical engineering, computer science, and geological science.
The association between the Department of Astronomy and McDonald Observatory offers many benefits. Graduate students typically receive about 25% of the nights on the two largest telescopes at McDonald, with additional time being granted to their advisors for joint projects. Students doing dissertation research receive high priority on all telescopes.
McDonald Observatory
The Observatory complex is located 450 miles west of Austin in the Davis Mountains, one of the darkest sky areas in the continental United States. At present, there are four primary research telescopes: the 10 m Hobby*Eberly Telescope (HET), 2.7 m Harlan J. Smith Telescope, 2.1 m Otto Struve Telescope, and the 0.8 m Telescope. The HET is an innovative departure from classical telescope design and gathers an enormous amount of light, primarily for spectroscopy.
The Observatory is equipped with a wide range of state-of-the-art instrumentation for optical and infrared spectroscopy and imaging, including VIRUS-P, the integral-field spectrograph prototype of the HETDEX project, and the innovative, high-resolution, near-infrared IGRINS. Our astronomers and students also make frequent use of national and international facilities, including Hubble Space Telescope, and are founding partners in the next generation Giant Magellan Telescope under construction at Las Campanas Observatory in Chile.
Austin Facilities
The University of Texas at Austin is a leading institution of higher education and research, the largest state-supported university, and the oldest and largest of the University of Texas System. It is second only to Harvard in the number of endowed faculty positions and many of the faculty are members of the National Academy of Sciences, the National Academy of Engineering, the American Academy of Arts and Sciences, as well as Pulitzer or Nobel Prize winners.
The University offers many excellent facilities and resources to graduate astronomy students. The University of Texas at Austin has the sixth largest academic library system in North America, the fifth largest in the United States, with more than eight million volumes. The Physics, Mathematics, and Astronomy Building (PMA) is home to the Kuenhe Library which houses a wealth of astronomical reference materials.
A 16-inch telescope on the roof of PMA and a 9-inch telescope in nearby T.S. Painter Hall offer students and the public an introduction to the night sky. The Astronomy Department and the Observatory also offer up-to-date computer facilities, including networks of workstations and personal computers. The Texas Advanced Computing Center (TACC) supports computational modeling with some of the world's most powerful supercomputers. Machine and electronic shops, as well as specialized equipment, are also available.
Graduate Astronomy Program
The Graduate Program includes courses which will introduce students to the basic ideas of modern astronomy and astrophysics, as well as more advanced material including:
| Course | Title |
| AST 380E | Radiative Processes and Radiative Transfer |
| AST 381 | Theoretical Astrophysics |
| AST 381C | Gravitational Dynamics |
| AST 382C | Astrophysical Gas Dynamics |
| AST 383 | Stellar Astronomy |
| AST 383C | Stellar Atmospheres |
| AST 383D | Stellar Structure and Evolution |
| AST 386 | Extragalactic Astronomy |
| AST 386C | Properties of Galaxies |
| AST 389 | Dynamical Astronomy |
| AST 392D | Mathematical Techniques in Astronomy |
| AST 392E | Optical Techniques in Astronomy |
| AST 392G | Observing Techniques in Astronomy |
| AST 392J | Astronomical Instrumentation |
| AST 393F | Survey of the Interstellar Medium |
| AST 396C | Elements of Cosmology |
| AST 398T | Supervised Teaching in Astronomy |
Additional course information is available in the Graduate Catalog.
Students select seven courses from a list of ten core courses and two elective courses from the list above. Attendance at the Seminar for First-Year Astronomy Graduate Students is required during the first Fall Semester. We offer a number of advanced courses, as well as five seminar series, which allow faculty, research staff, students, and visiting scientists to present their current research.
Throughout their graduate career, students carry out research projects designed to introduce them to the frontiers of modern astronomy. At the end of their second year, students defend their research to date. Students have the option of taking a Masters Degree at this time, and then continuing with the doctoral program or going directly into the doctoral program without applying for a Masters Degree. We have lists of current graduate students and their research projects, as well as the research interests of our faculty and research scientists.
For more information:
Graduate Admissions
Department of Astronomy
2515 Speedway, Stop C1400
Austin, TX 78712-1205
email: Grad Coordinator
