Welcome to the Department of Physics and Astronomy. We are housed in the historic
Nicholson Hall at the very center of Louisiana State University's beautiful
campus. Our department is one of the seven top Foundations of Excellence departments within the university and contains many world renowned physicists and astronomers who collectively bring in $8 million in federal research funding every year. This funding supports a diverse research team including not only the faculty and research associates, but graduate students and undergraduates as well. Our goal is to provide experience of real research to every physics major at some point during their degree. Many of our students participate in research throughout their time at LSU, publish papers, and attend conferences.
Some of the topics of research in the department include nano-technology, observational
astronomy, experimental nuclear physics, quantum computing, medical imaging, general
relativity, cosmic ray physics, laser physics, theoretical and computational astrophysics,
neutrino physics, quantum criticality, and gravitational wave research. Our faculty use major national and international research facilities as well as local sites such as the Center for Advanced Microstructures and Devices (CAMD) in Baton Rouge, the Laser Interferometric Gravitational wave Observatory (LIGO) about 20 miles to the east of the city, and the Mary Bird Perkins Cancer Center.
You can learn more about our active research program.
Physics is about understanding how the universe around us and within us works, from the smallest scales imaginable to the entire universe. It is the most basic and fundamental of the sciences, and underpins many other sciences, such as astronomy, chemistry, oceanography, seismology, and even biology. Physics challenges our imaginations with concepts like relativity and string theory, and it leads to great discoveries, like computers and lasers, that change our lives.
Buckeyball Physicists identify the fundamental particles of which the universe is made, and the laws, such as quantum physics and relativity that determine how they interact with each other. They study how these particles can assemble into atomic nuclei and how these nuclei combine with electrons to form atoms and molecules such as the "buckyball" shown on the left. They explore how radiation (such as laser light) interacts with atoms and molecules and how atoms can assemble into larger structures such as crystals.
Applied physicists seek to take this knowledge and devise useful applications to society.
Materials scientists develop semi-conductors, super-conductors, and nano-structures,
like the nano-wires
shown on the right. Medical and health physicists monitor the effects of radiation on the body and develop techniques to image inside our bodies using radiation and treat cancers.
Astronomers and astrophysicists apply physics to understand how planets, stars, galaxies, and indeed the whole universe works. Observational astronomers use telescopes on the ground and on satellite to study radiation from astronomical objects: extra-solar planets, black holes, neutron stars, supernovae, gamma-ray bursts, and quasars are some of the exciting objects challenging our understanding of the universe. The image of the Dumbell Nebula shown at right was made using our own Highland Road Park Observatory.
A physics degree is a gateway to many opportunties. Continuing to graduate study and ultimately research in physics or astronomy is only the tip of the iceberg, although an LSU physics degree will provide an excellent foundation for such a career path. Many physicists instead seek employment outside the academic sector in industrial physics applications or engineering. A large proportion actually end up working in computing and information technology, as the problem solving, numerical analysis, and programming skills learned in a physics degree are very applicable there.
There are many less obvious career paths from a physics degree too. Physicists are actively recruited by the financial sector as modeling stock markets requires many of the same skills and techniques as modeling physical systems. A physics degree, coupled with a pre-med track, is an excellent preparation for medical school, or a career in medical and health physics. A physicist who continues to law school is ideally qualified to work in patent law. Physicists can find employment in journalism, whether for specialist scientific journals or major newspapers.
The Physics Concentration is the primary concentration for physics majors interested in traditional areas of physics and uses elective hours to explore advanced physics topics in more detail. It is intended to provide a solid basis for graduate study in physics as well as a launching point for the many other careers available to a physics graduate.
The Astronomy concentration provides an excellent grounding in astronomy and astrophysics as preparation for graduate study, and is also well suited to anyone else interested in astronomy. You will take elective courses in stellar and galactic astrophysics, modern optics, and carry out an observational astronomy project at the Highland Road Park Observatory.
The Physics with Secondary Education concentration is targeted primarily at students wishing to pursue a career in teaching, but in fact has a much broader application to anyone interested in a community-related career.
If you are interested in this, you should also read about the Geaux Teach Program here which can provide financial support to students in this concentration.
The Physics with a Second Discipline concentration is for students who wish to combine study of physics with another subject, either a minor or a double-major in order to tailor their degree to their interests and career goals. Physics with Math, Physics with Engineering, and Physics with Computer Science are some natural combinations, but there are many other possibilities.
Students who are not majoring in physics may opt to obtain a minor in physics. To complete a minor in physics, you first need to complete the introductory physics sequence with the labs. That would be either PHYS 1201, 1202, 1208 and 1209, or PHYS 2110, 2112, 2113, 2108 and 2109. In addition, you must complete PHYS 2221 and three additional lecture courses. At least one of the courses should be at the 4000 level. The lecture courses can be chosen from PHYS 2203, 2231, 2411, 3098 or any three credit hour PHYS or ASTR courses numbered from 4100 to 4299. The total amount of hours to obtain a physics minor is 22-23 hours.
All undergraduate admissions are handled by the University's Office of Undergraduate Admissions. The deadline for normal Summer or Fall admission is April 15, and you can find out how to apply from the Undergraduate Admissions office.
If you wish to enter the Honors College, you must apply by November 15.
Other university information for prospective students is also available from the LSU web site.
The Department of Physics and Astronomy does not currently have any scholarships for incoming freshmen. There are several scholarships and awards available at a later stage to our top students. For many students paid research work takes the place of a scholarship. We endevour to provide a job to all students who are interested. We will hold a welcome meeting at the beginning of the fall semester and try to find a position for students as soon as possible. Many freshman are able to start work right away.
The university has several scholarship and financial aid packages. Typically the scholarships do require you to undertake work of some kind, and ideally this should be a research job.
The research work we offer is real research, working with professors using the same data and tools as they use. Some students undertake fieldwork as part of this experience, such as the ACES team, others may attend conferences. Most are either first-authors or co-authors on papers in major science journals. Increasingly graduate schools are looking for this kind of experience in applicants, and so we strongly encourage you to make the most of the opportunities that we can offer.