Astrophysics, PhD
Hardware, Instrumentation, NASA, Planets, Software, Space, approved for STEM-OPT extension, astronomy, cosmology, stars, universe
Work with world-class faculty, including theorists, observers and instrumentalists, to discover new planets, trace the evolution of stars and galaxies, explore the origin and development of the universe, build spaceflight hardware and design instruments for telescopes and satellites.
The Doctor of Philosophy program in astrophysics develops creative scholarship in students and prepares them for professional careers in astrophysics, astronomy or related fields.
Students in this program take graduate-level courses in stars and interstellar media, galaxies and cosmology; obtain quantitative skills through analysis and modeling; may have observing opportunities through regional and international telescope observatories; and conduct independent, fundamental astrophysical research. Graduate students work closely with a research advisor on a wide variety of topics, including theoretical physics, cosmology, galaxy dynamics, stellar evolution, exoplanets, and the development and building of instrumentation.
Graduate students in astrophysics become leaders in observational and theoretical research. They participate in NASA- and National Science Foundation-funded space missions and study topics such as how stars are born and die, how galaxies interact and evolve, and how the universe changed as it developed from its earliest beginnings.
The program's world-class faculty have research expertise across the full breadth of astrophysics, including the solar system, stars and galaxies from the Milky Way to the most distant galaxies in the universe. Current ASU research applies both computational and observational approaches to the exploration of a variety of topics, such as fundamental cosmology and whether there is life on exoplanets.
This program may be eligible for an Optional Practical Training extension for up to 24 months. This OPT work authorization period may help international students gain skills and experience in the U.S. Those interested in an OPT extension should review ASU degrees that qualify for the STEM-OPT extension at ASU's International Students and Scholars Center website.
The OPT extension only applies to students on an F-1 visa and does not apply to students completing a degree through ASU Online.
- College/school:
The College of Liberal Arts and Sciences
- Location: Tempe
- STEM-OPT extension eligible: Yes
84 credit hours, a written comprehensive exam, an oral comprehensive exam, a prospectus and a dissertation
Required Core (1 credit hour) Electives or Research (53 credit hours) Other Requirements: Astrophysics Sequence (9 credit hours) Other Requirements: Galaxies and Cosmology Sequence (3 credit hours) Other Requirements: Exoplanets and Planetary Science Sequence (3 credit hours) Other Requirements: Instrumentation and Techniques Sequence (3 credit hours) Culminating Experience (12 credit hours) Additional Curriculum Information When approved by the student's supervisory committee and the Graduate College, this program allows 30 credit hours from a previously awarded master's degree in a related field to be used for this degree.
SES 502 Exploring SESE Research (1)
AST 521 Stars and Interstellar Medium I (3)
AST 522 Stars and Interstellar Medium II (3)
AST 591 Seminar: Astrophysics (2)
SES 501 SESE Colloquium (1)
AST 531 Galaxies and Cosmology I (3)
AST 532 Galaxies and Cosmology II (3)
AST 533 Galaxies and Cosmology III (3)
AST 598 Topic: Exploring Exoplanets (3)
AST 598 Topic: Origins of Solar Systems (3)
SES 598 Topic: Water in the Solar System (3)
AST 552 Astronomical Instrumentation and Data Analysis (3)
SES 598 Topic: An Introduction to Astro-statistics (3)
SES 598 Topic: Introductory Radio Astronomy (3)
SES 598 Topic: Spectroscopy for Astrophysics (3)
SES 799 Dissertation (12)
Students select one course from each other requirement category. Substitutions may be made per department approval.
Applicants must fulfill the requirements of both the Graduate College and The College of Liberal Arts and Sciences.
Applicants must have earned a bachelor's or master's degree in any field from a regionally accredited institution.
Applicants must have a minimum cumulative GPA of 3.00 (scale is 4.00 = "A") in the last 60 hours of their first bachelor's degree program or a minimum cumulative GPA of 3.00 (scale is 4.00 = "A") in an applicable master's degree program.
All applicants must submit:
- graduate admission application and application fee
- official transcripts
- statement of purpose
- three letters of recommendation
- proof of English proficiency
Additional Application Information
An applicant whose native language is not English must provide proof of English proficiency regardless of their current residency.
| Session | Modality | Deadline | Type |
|---|---|---|---|
| Session A/C | In Person | 12/01 | Priority |
| Session | Modality | Deadline | Type |
|---|---|---|---|
| Session A/C | In Person | 10/01 | Priority |
Program learning outcomes identify what a student will learn or be able to do upon completion of their program. This program has the following program outcomes:
- Evaluate literature and current research in the field of astrophysics as it relates to their own original research.
- Conduct independent, original scientific research, drawing scientific conclusions that advances knowledge in astrophysics.
- Effectively communicate complex astrophysics concepts, research findings, and their implications to diverse audiences, including scientific peers, industry professionals, and the public.
Professionals with expertise in astrophysics are in high demand across all sectors and industries, including remote sensing, data science, instrument building, computational science, defense industries and scientific research. Coding and numerical modeling skills translate across many domains, even beyond astrophysics. Skills in the measurement and analysis of data related to the physics, chemistry and structure of the universe and exoplanetary systems are valuable to businesses and institutions that rely on data-driven strategies to explore beyond the Earth and solar system.
A doctoral degree in astrophysics is required for some careers in postsecondary education and research.
Career examples include:
- astrophysics professor
- data scientist
- instrument builder
- project manager
- research astronomer
- telescope operator
School of Earth and Space Exploration
|
ISTB4 795
sese-prospectivegrads@asu.edu
480-965-5081
3 year programs
These programs allow students to fast-track their studies after admission and earn a bachelor's degree in three years or fewer while participating in the same high-quality educational experience of a 4-year option. Students should talk to their academic advisor to get started.
Accelerated master's
These programs allow students to accelerate their studies to earn a bachelor's plus a master's degree in as few as five years (for some programs).
Each program has requirements students must meet to be eligible for consideration. Acceptance to the graduate program requires a separate application. Students typically receive approval to pursue the accelerated master’s during the junior year of their bachelor's degree program. Interested students can learn about eligibility requirements and how to apply.
