NASA Seeks Student Experiments For 2017 Edge-Of-Space Balloon Flight

An 11.8-million-cubic-foot scientific balloon is fully inflated in preparation to launch the High-Altitude Student Platform Payload. Image Credit: NASA/Alan Haggard

An 11.8-million-cubic-foot scientific balloon is fully inflated in preparation to launch the High-Altitude Student Platform Payload. Image Credit: NASA/Alan Haggard

November 13, 2016 – NASA is accepting applications through December 16 from graduate and undergraduate university students to fly experiments to the edge of space on a scientific balloon.

Up to 12 student teams will build and fly their experiments as part of the High Altitude Student Platform program, a joint project between NASA and the Louisiana State University’s Louisiana Space Consortium (LaSPACE) in Baton Rouge.

“Our scientific balloons have long been a brilliant training ground for the next generation of scientists and engineers,” said Debbie Fairbrother, NASA’s Balloon Program Office chief. “From astronauts and Noble-prize winning scientists, to engineers and technicians among the best in the business -— balloons have been a starting point for so many, and I think that’s the true value of HASP.”

A panel of experts from NASA’s Wallops Flight Facility in Virginia, the Columbia Scientific Balloon Facility in Texas and LaSPACE will review the applications and select the finalists for the next flight opportunity, scheduled for fall 2017.

Since 2006, more than 960 students from 34 institutions across 19 states, Puerto Rico and Canada have developed HASP experiments. Past student groups have flown instruments that have: flight-tested compact satellites, tested prototype long-range communication devices, performed space science experimentation (solar, gamma, cosmic-ray detection), sampled particles (organic and non-organic) at the edge of space, performed remote sensing experimentation, tested various rocket nozzles, measured infrasound to correlate with geophysical events and many more.

The HASP gondola houses and provides power, mechanical support, interfacing and data downlink and command uplink communications for up to 12 student instruments. Launched from NASA’s balloon launch facility in Fort Sumner, New Mexico, flights typically achieve 10 to 20 hours of flight at an altitude of about 23 miles.

For application materials and additional HASP details, visit:

http://laspace.lsu.edu/hasp