NASA wants to lift a 2.5-metre-long, reusable far-infrared telescope into Earth’s stratosphere using a massive high-altitude balloon in 2023 to check out the heavens more economically.

The mission, known as ASTHROS, short for Astrophysics Stratospheric Telescope for High-spectral Resolution Observations at Submillimeter-wavelengths, will gather a range of data to help scientists better understand star formation.

The hardware will be lifted by a 400-foot (120-metre)-wide balloon to an altitude of about 24.6 miles (40km), allowing it to pick up signals blocked by Earth’s lower atmosphere. It’ll only have about three weeks to study gas swirling around young stars, and nitrogen ions that reveal where massive stars and supernova have affected star-forming areas. Here’s NASA’s description of the mission:

Besides those two Milky Way regions, ASTHROS will also target:

  • The galaxy Messier 83 to pick up signs of so-called stellar feedback, which is the process in which huge explosions in space can whip up material that either form new stars or prevent the formation of suns. Stars are forged when enough gas and dust in the interstellar medium gloms together to reach a critical tipping-point, after which they collapse in on themselves due to gravity.

    “I think it’s understood that stellar feedback is the main regulator of star formation throughout the universe’s history,” said Jorge Pineda, principal investigator of ASTHROS. “Computer simulations of galaxy evolution still can’t quite replicate the reality that we see out in the cosmos. The nitrogen mapping that we’ll do with ASTHROS has never been done before, and it will be exciting to see how that information helps make those models more accurate.”

  • A young star called TW Hydrae, which may be growing its own planets in a surrounding disk of dust and gas. Readings from this disk, says NASA, “could potentially reveal places where the dust is clumping together to form planets. Learning more about protoplanetary disks could help astronomers understand how different types of planets form in young solar systems.”

The mission will also make use of electric cooling to keep the far-infrared telescope at optimum efficiency. This was, in the past, done with liquid helium. This latest bit of kit, though, will use power from solar panels, cutting down on launch payload and is more efficient.

NASA balloon telescope

Up, up and away in my electrically cooled balloon … An illustration of ASTHROS. Source: NASA’s Goddard Space Flight Center Conceptual Image Lab/Michael Lentz. Click to enlarge

The balloon is likely to be launched close to the South Pole and will circle Antarctica before returning to Earth. The telescope will then be refurbished and sent back up once the winds are right.

“Balloon missions like ASTHROS are higher-risk than space missions but yield high-rewards at modest cost,” said NASA engineer Jose Siles, project manager for ASTHROS. “With ASTHROS, we’re aiming to do astrophysics observations that have never been attempted before. The mission will pave the way for future space missions by testing new technologies and providing training for the next generation of engineers and scientists.” ®

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