A master's in astrophysics that explores the depths of the universe through multidisciplinary research, from general relativity to theoretical astrophysics, observational or instrumentation development, and other areas related to astrophysics.<br>The degree in astrophysics focuses on the underlying physics of phenomena beyond the Earth, and on the development of the technologies, instruments, data analysis, and modeling techniques that will enable the next major strides in the field.<br><br>There has never been a more exciting time to obtain an astronomy degree and study the universe beyond the confines of the Earth. A new generation of advanced ground-based and space-borne telescopes and enormous increases in computing power are enabling a golden age of astrophysics. RIT's astronomy degree has a multidisciplinary emphasis that sets it apart from conventional astrophysics graduate programs at traditional research universities.<br>RIT's master's in astrophysics offers students a wide range of frontier research topics in areas including multi-wavelength astrophysics, instrumentation and detector technology, computational astrophysics and gravitational wave astronomy and numerical relativity. Our guiding principle is to provide an intellectually demanding program within an informal, student-centered and supportive environment.<br><br>At RIT, you have the flexibility to tailor your plan of study to emphasize astrophysics (including observational and theoretical astrophysics), computational and gravitational astrophysics (including numerical relativity and gravitational wave astronomy), or astronomical technology (including detector and instrumentation research and development).<br><br>Pursure research interests in a wide range of topics, including design and development of novel detectors, multiwavelength studies of proto-stars, active galactic nuclei and galaxy clusters, gravitational wave data analysis, and theoretical and computational modeling of astrophysical systems including galaxies and compact objects such as binary black holes.