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. The Aerospace Corporation is hiring an Electro-Optical Sensor Performance Grad Intern position for the Integrated Sensor Design and Analysis Department in the Mission Payloads Division (MPD), a world-class engineering and scientific leader in electronics and remote sensing systems.⯠This position is based in El Segundo, CA. Job Summary At the Mission Payloads Division (MPD), we are pioneers in remote sensing systems that guide our country's space enterprise. Our talented and dynamic people create and flourish in electronics, sensors, radar, artificial intelligence (AI), and advanced data network domains. We boldly advance technology through our research and development and then forward to demonstration and integration. With innovative laboratories and prototyping, MPD delivers groundbreaking results. We guide our Department of Defense, intelligence community, and civil clients to enhance national productivity and security and tackle the most critical missions. Bring your intelligence and creative spirit and join us at MPD! The Integrated Sensor Design and Analysis Department supports passive electro-optical remote sensing payload development and test with design and analysis. Projects range from short-turnaround prototypes through Class A satellites and from pre-proposal phases through on-orbit support. System design concepts are developed and analyzed against mission requirements. In a concurrent engineering environment, systems are evaluated collaboratively from an optical, thermal, and structural perspective to determine on-orbit performance. Work Model: 100% Onsite: This position will be located 100% onsite in El Segundo, CA.