Laboratory for Atmospheric and Space Physics

The Laboratory for Atmospheric and Space Physics is a research institute at the University of Colorado, Boulder. Founded in 1948, LASP employs 750+ scientists, engineers, and students dedicated to space science research in fields including solar physics, planetary atmospheres, dusty plasmas, geophysics, and space weather. The institute received over $1 billion in research revenue since 2013, predominantly from NASA contracts. LASP employs over 250 students and is the only academic institute to send spacecraft instruments to all 8 planets in the Solar System. LASP has also sent missions to Pluto, the Sun, and multiple planetary moons.
As of 2025, LASP has a yearly budget exceeding $200 million and manages or supports 26 active space missions.

𝕏 LASPatCU

History

Founded in 1948 as the Upper Air Laboratory, the first scientific instruments built at LASP were launched into space after World War II using captured German V-2 rockets. In 1963, the University of Colorado received $791,500 from NASA for the construction of a 25,000 square-foot building to study "ultraviolet physics, solar ultraviolet-radiation data from rockets, and the testing of solar-rocket pointing-control mechanisms". LASP maintains a suborbital rocket program through periodic calibration instrument flights from White Sands Missile Range. It changed to its current name in 1965. LASP has historical ties to Ball Aerospace Corporation and the Center for Astrophysics and Space Astronomy.
The University of Colorado receives more NASA funding than any public university in the country, due in large part to LASP programs. Multiple companies have spun-off from research at LASP, including on electron beam dust mitigation for NASA.

Facilities

LASP has two main facilities located in the University of Colorado Boulder Research Park: the LASP Space Technology Research Center and Space Science. Two additional facilities - Astrophysical Research Lab and Space Learning Lab - are also part of LASP.
The facilities allow LASP to execute almost every aspect of space missions. Hardware facilities and cleanrooms allow for the construction of single instruments or entire spacecraft. A Mission Operations Center allows for the control of spacecraft data collection, and a large research staff analyzes the data for science research.
As part of the university, LASP has heavy student involvement in every aspect of its operations, including science, hardware design, spacecraft integration, and mission operations. Graduate students regularly lead instrument development under the supervision of professors and scientists at the institute. Notable student-led instruments include the Venetia Burney Student Dust Counter on New Horizons and the Student Nitric Oxide Explorer as part of NASA's Explorers Program.