2026 Space Sciences Graduate Intern

The Aerospace Corporation is the trusted partner to the nation’s space programs, solving the hardest problems and providing unmatched technical expertise. As the operator of a federally funded research and development center (FFRDC), we are broadly engaged across all aspects of space— delivering innovative solutions that span satellite, launch, ground, and cyber systems for defense, civil and commercial customers. When you join our team, you’ll be part of a special collection of problem solvers, thought leaders, and innovators. Join us and take your place in space. Physical Sciences Laboratories (PSL) supports the effective and timely development and operation of national security systems through scientific research and the application of advanced technologies. PSL has more than 150 specialized laboratories used to test, analyze, and troubleshoot virtually every aspect of rocket and satellite system design, development, construction, deployment, and operation. The expertise of the laboratories’ technical staff allows PSL to stay abreast of new technological developments and program support issues associated with rapidly evolving space systems. This role within PSL’s Space Sciences Department is focused on conducting fundamental and applied space science research to solve hard problems related to effects of the space environment on space system design and operation. This position will focus on magnetosphere-ionosphere-thermosphere coupling, ionospheric dynamics that severely impact the positioning, navigation and timing (PNT) applications for both military and civilian users, as well as ground- and space-based sensor development. The role also includes reporting on scientific and application results through direct interactions with customers and corporate leadership, participation in scientific conferences, and through peer-reviewed publications. The selected candidate will be required to work full-time, on-site at our facility in El Segundo, CA. What You’ll Be Doing Space can be an incredibly harsh environment that can severely affect civilian and military radio frequency (RF) -based technological systems. Apply your scientific expertise by utilizing a variety of observational data set and models to understand and characterize the upper atmosphere and its effects on applications and systems critically important for mission success. Topics could include RF propagation studies bouncing off the bottom side or transiting through the ionosphere, investigating how gradients modify the RF characteristics, impacts on positioning, navigation, and timing signals from GNSS systems, and radio-occultation analyses of on-orbit receivers. Disseminate study and project results through customer briefings and reports, conferences and workshops, and peer-reviewed publications Duties, responsibilities and activities may change, or new ones may be assigned as needed Training and mentorship will be provided.