ΒιΆΉΣ³»­΄«Γ½ today was awarded a $55 million NASA grant to build and launch into space an instrument the size of a microwave oven that will provide unprecedented imaging of the Earth’s upper atmosphere. The award is the largest single grant in ΒιΆΉΣ³»­΄«Γ½β€™s history, and ΒιΆΉΣ³»­΄«Γ½ will become the first Florida university to lead a NASA mission.

The information collected by the Global-scale Observations of the Limb and Disk (GOLD) mission will have a direct impact on understanding space weather – such as solar wind – and its impact on communication and navigation satellites, which we’ve come to rely on for everything from television programming to cell phone coverage and GPS in our vehicles.

The information may also lead to advances in directing airline traffic in a safer manner by providing a greater understanding of how space elements impact communication signals.

β€œIt’s great to see something that my team and I have worked on for years selected for funding,” said Richard Eastes, a research scientist with ΒιΆΉΣ³»­΄«Γ½β€™s Florida Space Institute. β€œIt shows that other scientists think what we’re planning to do is some of the most important science in the world. And for ΒιΆΉΣ³»­΄«Γ½, it’s a chance to demonstrate that the university can play a more significant role in space research. β€œ

The project is a collaboration between ΒιΆΉΣ³»­΄«Γ½, the Laboratory for Atmospheric and Space Physics (LASP) at the University of Colorado, and the commercial satellite company SES Government Solutions. ΒιΆΉΣ³»­΄«Γ½ will oversee the project and build the data center that will collect, process and distribute the data for the mission. LASP will build the compact instrument, which will operate in a geostationary orbit, and SES is scheduled to launch it on one of its communication satellites in 2017.

β€œIt’s clear that NASA is interested in flying more instruments on commercial satellites,” Eastes said. β€œWith today’s budgets, most science missions that need a geostationary orbit aren’t affordable unless they fly on a commercial satellite.”

GOLD’s collaborative approach may lead the way for similar projects at ΒιΆΉΣ³»­΄«Γ½ and other universities nationwide.

β€œBuilding upon the success of the Commercially Hosted Infrared Payload and innovative partnerships like the one we have with GOLD, we are extremely eager to blaze a new trail providing low-cost and timely opportunities for small- to medium-sized science payloads,” said Rich Pang, senior director for hosted payloads at SES Government Solutions.Β  β€œThe selection of GOLD by NASA is a testament to the importance of the mission and the hard work and innovation of the entire GOLD team.Β Β We are excited and proud to be selected as a mission partner.”

The scientific goals of the GOLD mission are to determine how geomagnetic storms alter the temperature and composition of Earth’s atmosphere; analyze the global response of the thermosphere to extreme ultraviolet variability; investigate the significance of atmospheric waves and tides propagating below the thermosphere; and resolve how the structure of the equatorial ionosphere influences the formation and evolution of plasma-density irregularities. The thermosphere is the part of the atmosphere that begins about 50 miles above the earth’s surface and extends to outer space.

Given the sophistication of the measurements needed, Eastes and his team turned to LASP to build the GOLD instrumentation. The lab has an international reputation for excellence and has been around since before NASA was formed.

Scientists at LASP are eager to start.

β€œGOLD’s imaging represents a new paradigm for observing the boundary between Earth and space,” said Bill McClintock, senior research scientist at LASP working on the project. β€œIt will revolutionize our understanding of how the sun and the space environment affect our upper atmosphere.”

The five-year project will begin immediately. Once the design is finished and checked, rechecked and rechecked again, LASP will begin construction. After launch in 2017 the instruments will provide data to the team, and other scientists throughout the world, for at least two years. Eastes says the instruments will likely continue to function for an additional three to five years.

Other members of the GOLD team that will be supporting the mission include the National Center for Atmospheric Research, the University of California at Berkeley, Computational Physics Inc. and the National Oceanic and Atmospheric Administration.