The Endurance Rocket Mission

Glyn Collinson, Alex Glocer, Rob Pfaff, Aroh Barjatya, Scott Bissett, Kolbjørn Blix, Aaron Breneman, Jim Clemmons, Francis Eparvier, Ted Gass, Robert Michell, David Mitchell, Suzie Imber, Ahmed Ghalib, Hassanali Akbari, Glen Ansted, Lisa Baddeley, Håvard Bahr, Gary Bain, Brian BonsteelHenry Borgen, Daniel Bowden, Dave Bowker, Tim Cameron, Meredith Campbell, Philip Cathell, Dennis Chornay, Robert Clayton, Larry Conser, Lance Davis, Sean Donohue, Leif Jonny Eilertsen, Charles Etheridge, Nathan Graves, Ingemar Häggstrøm, Preben Hanssen, Herbert Haugh, Espen Helgesen, Jordan Henderson, Kim Roar Herseth, John Hickman, Kent-Gøran Jensen, Travis Jester, Eric Johnson, Hunter Johnson, Andrew Kavanagh, Max King, David Knight, Russell Laman, Trevor Lankford, Rolf Lien, Mark Lester, Gordon Marsh, Steve Martin, Norman Morris, Long Nguyen, Richard Nelson, Wale Ogundere, Karl Henning Osbakk, Dave Page, Joe Polidan, Devon Raley, Richard Raymond, Ellen Robertson, Giovanni Rosanova, Traci Rosnack, Belinda Serabian, Roger Simonsen, Jan Arne Søreng, Jostein Sveen, Diana Swanson, Robert Swift, Paulo Uribe, Henry Valentine, Frank Waters, Libby West, Tim Wilson

Research output: Contribution to journalArticlepeer-review

Abstract

NASA’s Endurance sounding rocket (yard No. 47.001) will launch from Ny Ålesund, Svalbard in May 2022 on a solid fueled Oriole III-A launch vehicle. Its ~19 minute flight will carry it to an altitude of ~ 780 km above Earth’s sunlit polar cap. Its objective is to make the first measurement of the weak “ambipolar” electric field generated by Earth’s ionosphere. This field is thought to play a critical role in the upwelling and escape of ionospheric ions, and thus potentially in the evolution of Earth’s atmosphere. The results will enable us to determine the importance to ion escape of this previously unmeasured fundamental property of our planet, which will aid in a better understanding of what makes Earth habitable. Endurance will carry six science instruments (with 16 sensors) that will measure the total electrical potential drop below the spacecraft, and the physical parameters required to understand the physics of what generates the ambipolar field. The mission will be supported by simultaneous observations of solar and geomagnetic activity.

Original languageAmerican English
JournalSpace Science Reviews
Volume218
DOIs
StatePublished - Jun 21 2022

Keywords

  • Ambipolar
  • Electric fields
  • Ionosphere
  • Sounding rocket
  • Atmospheric escape
  • Endurance

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