research Archives - FreeFall Aerospace

CatSat is Coming Together!

freefallaero — Wed, 20 Oct 2021 21:27:14 +0000

This morning FreeFall Aerospace staff visited the University of Arizona to see the progress on CatSat, one of eight research satellites to be launched aboard a NASA mission in June 2022. The satellites selected under NASA’s CubeSat Launch Initiative will perform technology demonstrations, conduct scientific investigations, and provide educational benefits. CatSat is a partnership of the University of Arizona, FreeFall Aerospace, and Rincon Research.

CatSat is a 6U CubeSat developed by UA students from various departments, including Aerospace and Mechanical Engineering, Astronomy, Computer Science, and Electrical and Computer Engineering. It allows undergraduate and graduate students to get hands-on experience developing and operating a space mission and involves more than a dozen UA students spread across campus. The Principal Investigator of CatSat is Dr. Chris Walker, professor of Astronomy at UA and co-founder of FreeFall Aerospace.

Watch this video to learn more about our inflatable antenna!

Darren Verebelyi, Doug Stetson, and Aman Chandra of FreeFall Aerospace

CatSat’s key technology demonstration is FreeFall’s advanced antenna system for small spacecraft. It utilizes an ultra-lightweight inflatable structure that can be stowed in a very small volume, then deployed in orbit to provide a large aperture high-gain antenna. This approach will dramatically increase the total data return and overall effectiveness of Cubesats and other small satellites.

During the CatSat mission, the FreeFall inflatable antenna will transmit high-definition Earth imagery to a 6.1 m ground station antenna located at Biosphere2 near Tucson. A second whip antenna will also be used to probe how the ionosphere structure varies at different times of the day. The 6-month CatSat mission will complete the testing and validation of the FreeFall inflatable antenna and will represent a major contribution to future commercial, scientific, and government space missions.

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WIRED: New Space Telescopes Could Look Like Giant Beach Balls

freefallaero — Tue, 11 Jun 2019 22:08:09 +0000

NEW SPACE TELESCOPES COULD LOOK LIKE GIANT BEACH BALLS

WIRED |

IF WE EVER have giant inflatable telescopes in space, you can thank Chris Walker’s mom. Years ago, Walker was making chocolate pudding when he had to interrupt his culinary undertaking to field a phone call from his mother. He took the pudding off the stovetop, covered it with plastic wrap, and placed the pot on the floor by his couch. When the call was finished, he was startled to find an image of a light bulb from a nearby lamp hovering over the end of the couch. When he investigated the cause of this apparition, he found that a pocket of cold air formed as the pudding cooled, and that had caused the center of the plastic wrap to sag toward the pudding. This, in effect, formed a lens that was reflecting the light bulb.

“I thought ‘Hey, this is cool, but I have no use for it now,’” Walker, a professor of astronomy at the University of Arizona, says. But 30 years later, he used it as the basis for a proposal he sent to NASA Innovative Advanced Concepts, a program that funds far-out aerospace ideas.

The subject of that proposal was essentially a way to turn a giant inflatable beach ball into a space telescope. This suborbital balloon reflector wouldn’t contend with as much atmospheric interference as ground-based instruments. Furthermore, it could be easily scaled up, opening vast swaths of the universe to observation without the hefty price tag associated with building large telescopes.

The idea for the big balloon reflector grew out of Walker’s work on the Stratospheric Terahertz Observatory, a 1-meter telescope attached to a high-altitude balloon that circled Antarctica in the upper atmosphere for several weeks in 2012. As Walker watched the balloon inflate with 35 million cubic feet of helium, it occurred to him that the balloon was a lot of wasted space for such a small telescope. Wouldn’t it be nice if the balloon itself could be used as an observatory? This observation, combined with the insight from the pudding incident decades prior, led to the creation of the first inflatable telescope.

In 2014, Walker and his students made the first prototype of the large balloon reflector out of a large inflatable plastic sphere sold by a Chinese toy manufacturer. The ball had been designed for people to climb around inside like a human-sized “gerbil ball,” but it also turned out to be pretty great for radio astronomy. Walker suspended an antenna inside the ball and sprayed a circle with metallic paint on the inside to create a reflector. With this rudimentary setup, Walker and his students were able to do radio observations of the Sun from the rooftop of the astronomy building at the University of Arizona. Even though it wasn’t sent to the upper atmosphere, Walker says it demonstrates that even a very crude version of the telescope could get good results. “I knew it would work, but you have to show people,” he says. “Nothing beats a rooftop demonstration.”

But Walker realized the real benefits of a spherical, inflatable telescope would be found in space. Traditional radio telescopes use parabolic dishes as reflectors, which gather radiation and focus it on a specific point. While this works well enough, astronomers have to move the entire dish to point it a specific spot, which becomes a burden when the telescope is in space. With Walker’s design, you can point the telescope by moving the antenna inside the sphere, rather than repositioning the entire telescope. A spherical telescope also has a large field of view, so it can image large portions of the universe without moving.

Inflatable balloon reflectors could peer into deep space, scanning for signs of water, at a fraction of the cost of traditional telescopes. Image from Chris Walker.

FreeFall’s electronically-steerable antenna was successfully demonstrated at 160,000 feet in 2018 using NASA’s largest balloon.

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