IM-2

Last updated

NamesIM-2
CLPS-3
Mission type Lunar landing
Operator Intuitive Machines
Spacecraft properties
SpacecraftAthena
Spacecraft type Nova-C
Manufacturer Intuitive Machines
Start of mission
Launch dateQ4 2024 (2024) UTC
Rocket Falcon 9 Block 5
Launch site Kennedy LC-39A
Lunar lander
Landing site Shackleton connecting ridge [1]
  IM-1
IM-3  
 

IM-2 is an upcoming lunar mission that will be carried out in 2024 by Intuitive Machines for NASA's CLPS program, using a Nova-C lunar lander. [2] The company named this lander Athena. [3] Crucially, the mission would look to further uncover certainty of the presence of lunar water ice using the PRIME-1 system, which consists of a drill and mass spectrometer. Additionally, the lander will carry a Micro Nova Hopper, a type of drone that will deploy from the lander and aim to utilize its neutron spectrometer in the PSR (permanently shadowed region) of the nearby Marston crater. If successful, the drone would provide the first measurement of hydrogen on the surface in the PSR, a key indicator of water. [4] [5]

Contents

Background

The IM-1 mission in February 2024 followed the Peregrine mission by Astrobotic Technology, which launched in January 2024. The Peregrine landing at Gruithuisen Domes was abandoned when a propellant leak was observed after launch, and the spacecraft was guided to re-enter Earth's atmosphere. [6] The IM-1 Odysseus's "rough" soft Moon landing was the first soft lunar landing of any kind for an American-made spacecraft since Apollo 17 in 1972, [7] setting the stage for IM-2 to launch some time in Q4 of 2024. [8]

Mission hardware

IM was selected in October 2020 in order to land its second Nova-C lander near the lunar south pole. NASA has designated the landing site at a ridge near the Shackleton crater, where there could be ice below the surface. [9] After the "rough" soft landing of IM-1, several adjustments were made, including improvements to the primary laser rangefinder system, which helps determine variables such as altitude and horizontal velocity. [10]

The primary payload, PRIME-1, includes the TRIDENT ice drill to sample ice from below the lunar surface and the MSolo mass spectrometer to measure the amount of ice in the samples. [2] [11] ILO-1 prime contractor Canadensys is working to deliver "a flight-ready low-cost optical payload for the ILO-1 mission, ruggedized for the Moon South Pole environment". It could potentially be ready for integration on the IM-2 mission. [12] A lunar communications satellite will be deployed on this mission to facilitate communications between the lander and ground stations on Earth. [13] Spaceflight will deliver rideshare payloads on this mission aboard its Sherpa EScape (Sherpa-ES) space tug called Geo Pathfinder. [14] [15]

The MiniPIX TPX3 SPACE payload, provided by the Czech company ADVACAM, will be onboard the Nova-C lunar lander. This payload is designed to monitor the radiation field on the Moon and help understand how to protect crew and equipment from the negative effects of cosmic rays. This marks the first Czech payload planned to be delivered to the Moon's surface. [16] [17]

During the mission, IM will also deploy a second vehicle, its µNova (Micro-Nova) Hopper. Micro-Nova will separate from the Nova-C lander after landing and function as a standalone hopper lander, exploring multiple difficult-to-reach areas such as deep craters on the lunar surface, [13] [18] by firing hydrazine rockets in controlled bursts to propel itself short distances. It will hop across craters in search of lunar ice, which could contain water critical to future crewed missions to the Moon. [19] Water ice could be processed into rocket propellant or used to support a permanent lunar habitat in the future. Micro-Nova is also planned to take the first pictures from inside craters at the lunar south pole, and will be able to carry a 1-kilogram payload for more than 2.5 kilometers. The hopper will explore permanently shaded regions and could "fly into a lava tube and report images back", according to IM co-founder and CTO Tim Crain. [20] [21]

Space technology company Lunar Outpost will send their first lunar rover, the Mobile Autonomous Prospecting Platform (MAPP), on this mission in partnership with Nokia Bell Labs and IM. MAPP will collect lunar samples for NASA under a contract worth just $1, which is symbolic of a new incentive for the emerging commercial space industry to access resources in space. [22] [23] MAPP will have a mass of 5-10 kilograms, a payload mass of up to 15 kilograms, and a top speed of 10cm/s. [24] [25] On its multi-day journey, the rover will autonomously map the lunar surface, capture stereo images and thermal data, and inspect samples of lunar regolith in a special bin mounted on its wheels. Photos of the samples and other data will be transmitted through radio equipment and antennas to communicate with the Nova-C lander. [19] MAPP will snap 3D images and record videos using the RESOURCE camera, developed by MIT. It will also deploy MIT's AstroAnt, a miniature rover the size of a matchbox, to conduct contactless temperature measurements as it drives around on MAPP's roof. [22] [19] [26] [27]

A collaboration in order to demonstrate 4G cellular connectivity, in partnership with Nokia Bell Labs and NASA will be aboard the lander. [28] Nokia's equipment is a Network-In-a-Box and will connect the Nova-C lander with Lunar Outpost's MAPP rover and IM's Micro-Nova Hopper. This 4G/LTE network will provide more bandwidth than the more conventional ultra-high frequency (UHF) systems used for space communication. Nokia says they hope that future missions will use shared infrastructure to interlink bases on the lunar surface.

Mission events

Prior to launch

In May 2024 the company announced that IM-2 was entering the final assembly stage. [29] In May it was reported the company was upgrading both software and hardware, including the landing legs in order for better precision and control during descent and landing on the IM-2 mission. [30]

See also

Related Research Articles

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<span class="mw-page-title-main">Astrobotic Technology</span> American space robotics company

Astrobotic Technology inc., commonly referred to as Astrobotic is an American private company that is developing space robotics technology for lunar and planetary missions. It was founded in 2007 by Carnegie Mellon professor Red Whittaker and his associates with the goal of winning the Google Lunar X Prize. The company is based in Pittsburgh, Pennsylvania. Their first launch occurred on January 8, 2024, as part of NASA's Commercial Lunar Payload Services (CLPS) program. The launch carried the company's Peregrine lunar lander on board the first flight of the Vulcan Centaur rocket from Florida's Space Force Station LC-41. The mission was unable to reach the Moon for a soft or hard landing. On June 11, 2020, Astrobotic received a second contract for the CLPS program. NASA will pay Astrobotic US$199.5 million to take the VIPER rover to the Moon, targeting a landing in November 2024.

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<span class="mw-page-title-main">Intuitive Machines</span> American aerospace company

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<span class="mw-page-title-main">IM-1</span> 2024 lunar landing mission

IM-1 was a lunar mission that was carried out in February 2024 jointly by a partnership between the NASA CLPS program and Intuitive Machines (IM), using an Nova-C lunar lander. IM named their lunar lander as its Odysseus lander. The Odysseus lander was the first commercial lunar lander to have successfully soft-landed on the Moon.

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References

  1. Intuitive Machines [@Int_Machines] (May 9, 2024). "Featured in the fiction television series #ForAllMankind, our non-fiction IM-2 mission is targeting a ridge not far from the Shackleton crater referred to as the "Shackleton connecting ridge," which could have water ice below its surface. 📸NASA/GSFC/Arizona State University" (Tweet) via Twitter.
  2. 1 2 "Intuitive Machines 2 (PRIME 1)". nssdc.gsfc.nasa.gov. NASA . Retrieved May 9, 2024.
  3. "From ancient tales to modern space exploration, our IM-2 mission lander, Athena".
  4. David, Leonard (June 14, 2024). "Moon ice in the Artemis era: what we still don't know". SpaceNews. Retrieved June 16, 2024.
  5. "NASA, Intuitive Machines Announce Landing Site Location for Lunar Drill - NASA". November 3, 2021. Retrieved June 16, 2024.
  6. Jeff Foust (January 20, 2024). "Astrobotic to begin formal investigation into failed Peregrine mission". spacenews.com. Retrieved May 9, 2024.
  7. "Intuitive Machines calls IM-1 a successful moon-landing mission". mynews13.com. Retrieved May 9, 2024.
  8. Elizabeth Gamillo (March 29, 2024). "The IM-2 Moon mission will carry a blend of science and art". www.astronomy.com. Astronomy Magazine. Retrieved May 9, 2024.
  9. Hilary Smith (November 3, 2021). "NASA, Intuitive Machines Announce Landing Site Location for Lunar Drill". nasa.gov. NASA . Retrieved May 10, 2024.
  10. Aria Alamalhodaei (March 21, 2024). "Intuitive Machines' second moon mission on track for 2024". www.techcrunch.com. Retrieved May 10, 2024.
  11. Katherine Brown (October 16, 2020). "NASA Selects Intuitive Machines to Land Water-Measuring Payload on the Moon". nasa.gov. NASA. Archived from the original on October 18, 2020. Retrieved November 15, 2020.PD-icon.svg This article incorporates text from this source, which is in the public domain.
  12. "The ILO Mission – ILOA Hawai'i". April 7, 2021. Archived from the original on November 3, 2021. Retrieved September 22, 2023.
  13. 1 2 "Intuitive Machines to Deploy and Operate First Lunar Communication Satellite in 2022". www.intuitivemachines.com. Intuitive Machines. June 21, 2021. Archived from the original on June 21, 2021. Retrieved June 22, 2021.
  14. "IM-2 South Pole Mission Adds Secondary Rideshare Spaceflight Inc". www.intuitivemachines.com. Intuitive Machines. August 18, 2021. Archived from the original on August 18, 2021. Retrieved August 18, 2021.
  15. Danny Lentz; Thomas Burghardt (September 14, 2021). "Spaceflight Inc announces rideshare mission to the moon and geostationary orbit". nasaspaceflight.com. Archived from the original on September 14, 2021. Retrieved September 15, 2021.
  16. "Advacam – MiniPIX TPX3 Space". Archived from the original on November 1, 2023. Retrieved November 2, 2023.
  17. "LSU's Tiger Eye-1 to Monitor Radiation Environment in Deep Space". May 4, 2021. Archived from the original on July 6, 2022. Retrieved November 2, 2023.
  18. "Lunar Services – Getting Around – Extreme Lunar Surface Mobility". www.intuitivemachines.com. Intuitive Machines. Archived from the original on June 28, 2021. Retrieved June 22, 2021.
  19. 1 2 3 "An inside look at Nokia's Moon mission". www.nokia.com. Nokia. July 25, 2023. Retrieved April 30, 2024.
  20. Keith Cooper (January 8, 2023). "What is Intuitive Machines and how is it aiming for the moon?". Space.com. Retrieved May 10, 2024.
  21. "Intuitive Machines and NASA Finalize Contract for Extreme Lunar Mobility Spacecraft". www.intuitivemachines.com. Intuitive Machines. July 21, 2021. Retrieved May 10, 2024.
  22. 1 2 Arianna Johnson (November 9, 2022). "MIT Will Return To The Moon For The First Time Since Apollo, Thanks To This Space Startup". Forbes . Retrieved April 30, 2024.
  23. Catherine Thorbecke (December 5, 2020). "NASA will pay a firm $1 to go to the moon and get a sample". abcnews.go.com. ABC News . Retrieved April 30, 2024.
  24. "Rovers". www.lunaroutpost.com. Retrieved April 30, 2024.
  25. Aria Alamalhodaei (July 14, 2022). "Lunar Outpost eyes up first-mover advantage for moon markets". www.techcrunch.com. Retrieved April 30, 2024.
  26. "AstroAnt". www.media.mit.edu. MIT Media Lab. Retrieved April 30, 2024.
  27. Stefanie Waldek (April 30, 2024). "Private moon lander will carry Nokia's 4G cell network to the lunar surface this year". Space.com. Retrieved April 30, 2024.
  28. Jack Bantock (April 24, 2024). "Streaming and texting on the Moon: Nokia and NASA are taking 4G into space | CNN Business". www.cnn.com. CNN . Retrieved April 27, 2024.
  29. Intuitive Machines [@Int_Machines] (May 7, 2024). "Like cars on Earth, we monitor our spacecraft's temperatures in space. Engineers installed these tank sensors before starting the final assembly of our soon-to-be-named IM-2 mission lunar lander" (Tweet) via Twitter.
  30. Jeff Foust (May 14, 2024). "Intuitive Machines making upgrades to second lunar lander". spacenews.com. Retrieved May 14, 2024.
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