A team of engineers and technicians finished the final assembly step for the MSOLO-2 (Mass Spectrometer Observing Lunar Operations) flight instrument by installing the Calibration Gas System inside of the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on June 21, 2023. MSOLO is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface.

A team of engineers and technicians finished the final assembly step for the MSOLO-2 (Mass Spectrometer Observing Lunar Operations) flight instrument by installing the Calibration Gas System inside of the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on June 21, 2023. MSOLO is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface.

A team of engineers and technicians finished the final assembly step for the MSOLO-2 (Mass Spectrometer Observing Lunar Operations) flight instrument by installing the Calibration Gas System inside of the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on June 21, 2023. MSOLO is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface.

A team of engineers and technicians finished the final assembly step for the MSOLO-2 (Mass Spectrometer Observing Lunar Operations) flight instrument by installing the Calibration Gas System inside of the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on June 21, 2023. MSOLO is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface.

From left to right, Kennedy Space Center employees Stefan Tomovic, Beau Peacock, and Chris Bond work with MSolo (Mass Spectrometer Observing Lunar Operations) test hardware at the Florida spaceport on July 13, 2021. MSolo is a commercial off-the-shelf mass spectrometer modified by the team at Kennedy to work in the harsh, rigorous conditions of the Moon. MSolo is heading to the Moon on four of NASA’s Commercial Lunar Payload Services initiative or CLPS missions, including the Polar Resources Ice Mining Experiment-1 (PRIME-1) and NASA’s Volatiles Investigating Polar Exploration Rover, or VIPER. Kennedy is working in partnership with INFICON, of Syracuse, New York, to develop the mass spectrometer.

Kennedy Space Center employee Roberto Aguilar Ayala, left, and Ken Wright of INFICON work with MSolo (Mass Spectrometer Observing Lunar Operations) test hardware at Kennedy Space Center in Florida on July 13, 2021. MSolo is a commercial off-the-shelf mass spectrometer modified by the team at Kennedy to work in the harsh, rigorous conditions of the Moon. MSolo is heading to the Moon on four of NASA’s Commercial Lunar Payload Services initiative or CLPS missions, including the Polar Resources Ice Mining Experiment-1 (PRIME-1) and NASA’s Volatiles Investigating Polar Exploration Rover, or VIPER. Kennedy is working in partnership with INFICON, of Syracuse, New York, to develop the mass spectrometer.

Kennedy Space Center employees Alex Decamargo, left, and JoAnn Robinson work with MSolo (Mass Spectrometer Observing Lunar Operations) flight hardware at the Florida spaceport on July 13, 2021. MSolo is a commercial off-the-shelf mass spectrometer modified by the team at Kennedy to work in the harsh, rigorous conditions of the Moon. MSolo is heading to the Moon on four of NASA’s Commercial Lunar Payload Services initiative or CLPS missions, including the Polar Resources Ice Mining Experiment-1 (PRIME-1) and NASA’s Volatiles Investigating Polar Exploration Rover, or VIPER. Kennedy is working in partnership with INFICON, of Syracuse, New York, to develop the mass spectrometer.

Kennedy Space Center employee Chris Johnson, left, and Jamie Winfield of INFICON work with MSolo (Mass Spectrometer Observing Lunar Operations) test hardware at Kennedy Space Center in Florida on July 13, 2021. MSolo is a commercial off-the-shelf mass spectrometer modified by the team at Kennedy to work in the harsh, rigorous conditions of the Moon. MSolo is heading to the Moon on four of NASA’s Commercial Lunar Payload Services initiative or CLPS missions, including the Polar Resources Ice Mining Experiment-1 (PRIME-1) and NASA’s Volatiles Investigating Polar Exploration Rover, or VIPER. Kennedy is working in partnership with INFICON, of Syracuse, New York, to develop the mass spectrometer.

Preparations are underway to conduct a vibration test on the Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s VIPER mission inside a laboratory in the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida on Nov. 8, 2022. Exposing the instrument to vibration environments that it might see during launch helps engineers to find issues prior to liftoff. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Preparations are underway to conduct a vibration test on the Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s VIPER mission inside a laboratory in the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida on Nov. 8, 2022. Exposing the instrument to vibration environments that it might see during launch helps engineers to find issues prior to liftoff. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

The Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s VIPER mission is being prepared for a vibration test inside a laboratory in the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida on Nov. 8, 2022. Exposing the instrument to vibration environments that it might see during launch helps engineers to find issues prior to liftoff. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Technicians prepare the Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s Volatile Investigating Polar Exploration Rover (VIPER) mission for packing inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Feb. 21, 2023. MSolo will be shipped to Johnson Space Center in Houston for integration into VIPER. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions. VIPER is scheduled to be delivered to the Moon’s South Pole in late 2024 by Astrobotic’s Griffin lander as part of the CLPS initiative.

Technicians prepare the Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s Volatile Investigating Polar Exploration Rover (VIPER) mission for packing inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Feb. 21, 2023. MSolo will be shipped to Johnson Space Center in Houston for integration into VIPER. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions. VIPER is scheduled to be delivered to the Moon’s South Pole in late 2024 by Astrobotic’s Griffin lander as part of the CLPS initiative.

The Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s Volatile Investigating Polar Exploration Rover (VIPER) mission is prepared for packing inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Feb. 21, 2023. MSolo will be shipped to Johnson Space Center in Houston for integration into VIPER. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions. VIPER is scheduled to be delivered to the Moon’s South Pole in late 2024 by Astrobotic’s Griffin lander as part of the CLPS initiative.

Technicians prepare the Mass Spectrometer Observing Lunar Operations (MSolo) for NASA’s Volatile Investigating Polar Exploration Rover (VIPER) mission for packing inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Feb. 21, 2023. MSolo will be shipped to Johnson Space Center in Houston for integration into VIPER. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo will be part of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) mission where under the Artemis program, commercial deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions. VIPER is scheduled to be delivered to the Moon’s South Pole in late 2024 by Astrobotic’s Griffin lander as part of the CLPS initiative.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, members of the Mass Spectrometer observing lunar operations (MSolo) team prepare MSolo flight hardware for shipment in preparation for launch in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries beginning in 2022 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, members of the Mass Spectrometer observing lunar operations (MSolo) team prepare MSolo flight hardware for shipment in preparation for launch in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries beginning in 2022 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, members of the Mass Spectrometer observing lunar operations (MSolo) team prepare MSolo flight hardware for shipment in preparation for launch in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries beginning in 2022 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, members of the Mass Spectrometer observing lunar operations (MSolo) team prepare MSolo flight hardware for shipment in preparation for launch in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries beginning in 2022 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Engineers and technicians at NASA’s Kennedy Space Center in Florida work with instruments for Mass Spectrometer observing lunar operations (MSolo) inside the Space Station Processing on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This work is preparing MSolo hardware for a robotic mission as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Engineers and technicians at NASA’s Kennedy Space Center in Florida work with instruments for Mass Spectrometer observing lunar operations (MSolo) inside the Space Station Processing on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This work is preparing MSolo hardware for a robotic mission as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Engineers and technicians at NASA’s Kennedy Space Center in Florida work with instruments for Mass Spectrometer observing lunar operations (MSolo) inside the Space Station Processing on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This work is preparing MSolo hardware for a robotic mission as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Instruments for the Mass Spectrometer observing lunar operations (MSolo) are in view inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This work is preparing MSolo hardware for a robotic mission as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Engineers and technicians at NASA’s Kennedy Space Center in Florida are preparing the Mass Spectrometer observing lunar operations (MSolo) for launch inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo hardware is a payload for a robotic mission to the Moon as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Engineers and technicians at NASA’s Kennedy Space Center in Florida work with instruments for Mass Spectrometer observing lunar operations (MSolo) inside the Space Station Processing on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This work is preparing MSolo hardware for a robotic mission as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Engineers and technicians at NASA’s Kennedy Space Center in Florida are preparing the Mass Spectrometer observing lunar operations (MSolo) for launch inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo hardware is a payload for a robotic mission to the Moon as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Engineers and technicians at NASA’s Kennedy Space Center in Florida work with instruments for Mass Spectrometer observing lunar operations (MSolo) inside the Space Station Processing on Sept. 25, 2020. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This work is preparing MSolo hardware for a robotic mission as part of the Commercial Lunar Payload Services (CLPS) launching to exploring Lacus Mortis, a large crater on the near side of the Moon in 2021. A future mission will send a mobile robot named the Volatiles Investigating Polar Exploration Rover (VIPER) to the Moon to prospect for water. VIPER will have several instruments that will allow it to detect and sample water including MSolo, the Neutron Spectrometer System, the Near Infrared Volatiles Spectrometer System and The Regolith and Ice Drill for Exploring New Terrain (TRIDENT).

Team members working inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, on Sept. 23, 2021, meticulously assemble ground support equipment that will protect shipment of the Mass Spectrometer observing lunar operations (MSolo) flight hardware for preparations before it launches in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo, scheduled to first launch in 2022, is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries will include science experiments, testing of technologies and demonstrations of capabilities to help NASA explore the Moon and prepare for human missions.

Team members working inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, on Sept. 23, 2021, meticulously assemble ground support equipment that will protect shipment of the Mass Spectrometer observing lunar operations (MSolo) flight hardware for preparations before it launches in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo, scheduled to first launch in 2022, is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries will include science experiments, testing of technologies and demonstrations of capabilities to help NASA explore the Moon and prepare for human missions.

Team members working inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, on Sept. 23, 2021, meticulously assemble ground support equipment that will protect shipment of the Mass Spectrometer observing lunar operations (MSolo) flight hardware for preparations before it launches in 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo, scheduled to first launch in 2022, is part of four of the agency’s Commercial Lunar Payload Delivery Service missions where under the Artemis program, commercial deliveries will include science experiments, testing of technologies and demonstrations of capabilities to help NASA explore the Moon and prepare for human missions.

Electronics Engineer and Mass Spectrometer Observing Lunar Operations (MSolo) team member Nate Cain conducts electromagnetic interference (EMI) testing inside the EMI Laboratory at NASA’s Kennedy Space Center in Florida on Feb. 14, 2022. The tests will verify that MSolo can control the emissions it will produce during its missions and meets EMI susceptibility requirements as part of its preparation to operate in the lunar environment. The third MSolo to go through EMI testing, this is an engineering development unit representative of the flight unit manifested to fly to the Moon’s South Pole as a payload on the agency’s Volatiles Investigating Polar Exploration Rover (VIPER) in 2023. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – the first of which is slated for later this year. MSolo will help analyze the chemical makeup of landing sites on the Moon, with the later missions also studying water on the lunar surface.

NASA’s Mass Spectrometer Observing Lunar Operations (MSolo) undergoes electromagnetic interference (EMI) testing inside the EMI Laboratory at the agency’s Kennedy Space Center in Florida on Feb. 14, 2022. These tests will verify that MSolo can control the emissions it will produce during its missions and meets EMI susceptibility requirements as part of its preparation to operate in the lunar environment. The third MSolo to go through EMI testing, this is an engineering development unit representative of the flight unit manifested to fly to the Moon’s South Pole as a payload on the agency’s Volatiles Investigating Polar Exploration Rover (VIPER) in 2023. Researchers and engineers are preparing MSolo to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – the first of which is slated for later this year. MSolo will help analyze the chemical makeup of landing sites on the Moon, with the later missions also studying water on the lunar surface.

Electronics Engineer and Mass Spectrometer Observing Lunar Operations (MSolo) team member Nate Cain conducts electromagnetic interference (EMI) testing inside the EMI Laboratory at NASA’s Kennedy Space Center in Florida on Feb. 14, 2022. These tests will verify that MSolo can control the emissions it will produce during its missions and meets EMI susceptibility requirements as part of its preparation to operate in the lunar environment. The third MSolo to go through EMI testing, this is an engineering development unit representative of the flight unit manifested to fly to the Moon’s South Pole as a payload on the agency’s Volatiles Investigating Polar Exploration Rover (VIPER) in 2023. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – the first of which is slated for later this year. MSolo will help analyze the chemical makeup of landing sites on the Moon, with the later missions also studying water on the lunar surface.

Electronics Engineer and Mass Spectrometer Observing Lunar Operations (MSolo) team member Nate Cain conducts electromagnetic interference (EMI) testing inside the EMI Laboratory at NASA’s Kennedy Space Center in Florida on Feb. 14, 2022. The tests will verify that MSolo can control the emissions it will produce during its missions and meets EMI susceptibility requirements as part of its preparation to operate in the lunar environment. The third MSolo to go through EMI testing, this is an engineering development unit representative of the flight unit manifested to fly to the Moon’s South Pole as a payload on the agency’s Volatiles Investigating Polar Exploration Rover (VIPER) in 2023. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – the first of which is slated for later this year. MSolo will help analyze the chemical makeup of landing sites on the Moon, with the later missions also studying water on the lunar surface.

The Mass Spectrometer Observing Lunar Operations (MSolo) instrument is photographed inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida following installation of its radiator on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida prepare to install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida have prepped the Mass Spectrometer Observing Lunar Operations (MSolo) instrument’s radiator for installation inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida prepare to install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida prepare to install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida prepare to install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

The Mass Spectrometer Observing Lunar Operations (MSolo) instrument is photographed inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida following installation of its radiator on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Engineers and technicians at NASA’s Kennedy Space Center in Florida install the radiator for the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the Space Station Processing Facility on Sept. 25, 2020. MSolo will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. The radiator will help keep the instrument’s temperature stable in the extreme heat and cold it will encounter. MSolo instruments are scheduled to launch on multiple robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS), with the first of these missions exploring Lacus Mortis, a large crater on the near side of the Moon, beginning in 2021. MSolo also will be one of three instruments on the agency’s water-hunting Volatiles Investigating Polar Exploration Rover, VIPER, scheduled to launch to the Moon’s South Pole in late 2023.

Nate Cain, an electronics engineer with the Advanced Engineering Development Branch at NASA’s Kennedy Space Center in Florida, prepares to conduct electromagnetic interference (EMI) testing for the agency’s Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside the EMI Laboratory on Feb. 14, 2022. These tests will verify that MSolo can control the emissions it will produce during its missions and meets EMI susceptibility requirements as part of its preparation to operate in the lunar environment. The third MSolo to go through EMI testing, this is an engineering development unit representative of the flight unit manifested to fly to the Moon’s South Pole as a payload on the agency’s Volatiles Investigating Polar Exploration Rover (VIPER) in 2023. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – the first of which is slated for later this year. MSolo will help analyze the chemical makeup of landing sites on the Moon, with the later missions also studying water on the lunar surface.

Engineers and technicians are completing assembly work inside the Space Station Processing Facility, on flight hardware for the Mass Spectrometer Observing Lunar Operations. MSolo, is a commercial off-the shelf mass spectrometer modified to work in space and will be an instrument on the agency’s first mission as part of the Commercial Lunar Payload Services.

Principal investigator, Dr. Janine Captain, attaches a mass spectrometer sensor to electronics inside a vacuum chamber in the Space Station Processing Facility high bay at NASA’s Kennedy Space Center on Dec. 12, 2018. The Mass Spectrometer observing lunar operations (MSolo) instrument is a commercial off-the-shelf mass instrument modified to work in space, and can identify molecules at lunar landing sites. These MSolo instruments are part of NASA’s efforts to return to the Moon with the Commercial Lunar Payload Services Landers Program.

Senior leaders with Kennedy Space Center in Florida, familiarize newly appointed officials from NASA Headquarters with the center’s facilities during a tour on April 19, 2021. The group views research and technology experiments in the Space Station Processing Facility. Janine Captain, the principal investigator for the Mass Spectrometer Observing Lunar Operations, or MSolo, briefs the team about the commercial off the-shelf- mass spectrometer the team at Kennedy has hardened for lunar operations. MSolo will be part of four missions for NASA’s Commercial Lunar Payload Services initiative, including NASA’s Polar Resources Ice Mining Experiment-1 (PRIME-1) and NASA’s Volatiles Investigating Polar Exploration Rover or VIPER.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, an engineer installs the Mass Spectrometer observing lunar operations (MSolo) onto its radiator bracket on June 14, 2022. Having successfully completed its thermal vacuum testing, the unit will undergo vibration testing later this month. This spectrometer is part of the PRIME-1 (Polar Resources Ice Mining Experiment-1) payload suite, slated to launch to the Moon in 2023 with Intuitive Machines. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is manifested to fly on four of the agency’s Commercial Lunar Payload Delivery Service missions where under Artemis, commercial deliveries beginning in 2023 will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, an engineer installs the Mass Spectrometer observing lunar operations (MSolo) onto its radiator bracket on June 14, 2022. Having successfully completed its thermal vacuum testing, the unit will undergo vibration testing later this month. This spectrometer is part of the PRIME-1 (Polar Resources Ice Mining Experiment-1) payload suite, slated to launch to the Moon in 2023 with Intuitive Machines. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is manifested to fly on four of the agency’s Commercial Lunar Payload Delivery Service missions where under Artemis, commercial deliveries beginning in 2023 will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, an engineer installs the Mass Spectrometer observing lunar operations (MSolo) onto its radiator bracket on June 14, 2022. Having successfully completed its thermal vacuum testing, the unit will undergo vibration testing later this month. This spectrometer is part of the PRIME-1 (Polar Resources Ice Mining Experiment-1) payload suite, slated to launch to the Moon in 2023 with Intuitive Machines. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is manifested to fly on four of the agency’s Commercial Lunar Payload Delivery Service missions where under Artemis, commercial deliveries beginning in 2023 will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, an engineer installs the Mass Spectrometer observing lunar operations (MSolo) onto its radiator bracket on June 14, 2022. Having successfully completed its thermal vacuum testing, the unit will undergo vibration testing later this month. This spectrometer is part of the PRIME-1 (Polar Resources Ice Mining Experiment-1) payload suite, slated to launch to the Moon in 2023 with Intuitive Machines. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is manifested to fly on four of the agency’s Commercial Lunar Payload Delivery Service missions where under Artemis, commercial deliveries beginning in 2023 will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, the Mass Spectrometer observing lunar operations (MSolo) is being installed on a radiator bracket on June 14, 2022. Having successfully completed its thermal vacuum testing, the unit will undergo vibration testing later this month. This spectrometer is part of the PRIME-1 (Polar Resources Ice Mining Experiment-1) payload suite, slated to launch to the Moon in 2023 with Intuitive Machines. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is manifested to fly on four of the agency’s Commercial Lunar Payload Delivery Service missions where under Artemis, commercial deliveries beginning in 2023 will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

A Kennedy Space Center engineer prepares the Mass Spectrometer observing lunar operations (MSolo) instrument for vibration testing inside the Florida spaceport’s Cryogenics Laboratory on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative.

Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers at NASA’s Kennedy Space Center in Florida remove the vibration fixture on the Mass Spectrometer observing lunar operations (MSolo) instrument on Aug. 4, 2022. The activity followed a vibration test in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

The Mass Spectrometer observing lunar operations (MSolo) instrument undergoes vibration testing inside the Cryogenics Laboratory at NASA’s Kennedy Space Center in Florida on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative.

Engineers at NASA’s Kennedy Space Center in Florida remove the vibration fixture on the Mass Spectrometer observing lunar operations (MSolo) instrument on Aug. 4, 2022. The activity followed a vibration test in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers at NASA’s Kennedy Space Center monitor the Mass Spectrometer observing lunar operations (MSolo) instrument as it undergoes vibration testing inside the Florida spaceport’s Cryogenics Laboratory on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative.

Engineers at NASA’s Kennedy Space Center in Florida remove the vibration fixture on the Mass Spectrometer observing lunar operations (MSolo) instrument on Aug. 4, 2022. The activity followed a vibration test in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

A Kennedy Space Center engineer prepares the Mass Spectrometer observing lunar operations (MSolo) instrument for vibration testing inside the Florida spaceport’s Cryogenics Laboratory on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative.

Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers at NASA’s Kennedy Space Center in Florida remove the vibration fixture on the Mass Spectrometer observing lunar operations (MSolo) instrument on Aug. 4, 2022. The activity followed a vibration test in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers at NASA’s Kennedy Space Center prepare the Mass Spectrometer observing lunar operations (MSolo) instrument for vibration testing inside the Florida spaceport’s Cryogenics Laboratory on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative.

Engineers conduct a mass properties test on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility in Florida on Nov. 22, 2022. Mass properties determines the mass and center of gravity of the flight unit. The lander uses this information, from all payloads, to improve stability and performance of the lander – and to a lesser degree, the stability and performance of the rocket. This marks the end of testing at Kennedy for the Polar Resources Ice Mining Experiment-1 (PRIME-1) MSolo instrument. It will soon be shipped to Intuitive Machines in Houston for integration on the NOVA-C landing platform. Launching in 2023, the PRIME-1 mission will be the first in-situ resource utilization demonstration on the Moon.

Engineers conduct a mass properties test on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility in Florida on Nov. 22, 2022. Mass properties determines the mass and center of gravity of the flight unit. The lander uses this information, from all payloads, to improve stability and performance of the lander – and to a lesser degree, the stability and performance of the rocket. This marks the end of testing at Kennedy for the Polar Resources Ice Mining Experiment-1 (PRIME-1) MSolo instrument. It will soon be shipped to Intuitive Machines in Houston for integration on the NOVA-C landing platform. Launching in 2023, the PRIME-1 mission will be the first in-situ resource utilization demonstration on the Moon.

Engineers conduct a mass properties test on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility in Florida on Nov. 22, 2022. Mass properties determines the mass and center of gravity of the flight unit. The lander uses this information, from all payloads, to improve stability and performance of the lander – and to a lesser degree, the stability and performance of the rocket. This marks the end of testing at Kennedy for the Polar Resources Ice Mining Experiment-1 (PRIME-1) MSolo instrument. It will soon be shipped to Intuitive Machines in Houston for integration on the NOVA-C landing platform. Launching in 2023, the PRIME-1 mission will be the first in-situ resource utilization demonstration on the Moon.

Kevin Smith, software team and science team liaison for NASA’s Mass Spectrometer observing lunar operations (MSolo), takes part in a joint simulation of the Peregrine One Mission on March 26, 2021, at NASA’s Kennedy Space Center in Florida, where MSolo connected from inside the Neil Armstrong Operations and Checkout Building to Astrobotic’s mission control facility in Pittsburgh, Pennsylvania. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This was the first mission round of simulations for Peregrine Mission One to develop and refine procedures between Astrobotic’s Peregrine Lander and MSolo. Later, there will be other simulations with multiple instruments. Peregrine Mission One will be one of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) missions where under the Artemis program, commercial deliveries beginning in 2021 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Janine Captain, principal investigator for NASA’s Mass Spectrometer observing lunar operations (MSolo) takes part in a joint simulation of the Peregrine One Mission on March 26, 2021, where MSolo connected from inside the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida to Astrobotic’s mission control facility in Pittsburgh, Pennsylvania. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This was the first mission round of simulations for Peregrine Mission One to develop and refine procedures between Astrobotic’s Peregrine Lander and MSolo. Later, there will be other simulations with multiple instruments. Peregrine Mission One will be one of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) missions where under the Artemis program, commercial deliveries beginning in 2021 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Janine Captain, at right, principal investigator for NASA’s Mass Spectrometer observing lunar operations (MSolo) takes part in a simulation of the Peregrine One Mission on March 26, 2021, where MSolo connected from inside the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida to Astrobotic’s mission control facility in Pittsburgh, Pennsylvania. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This was the first mission round of simulations for Peregrine Mission One to develop and refine procedures between Astrobotic’s Peregrine Lander and MSolo. Later, there will be other simulations with multiple instruments. Peregrine Mission One will be one of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) missions where under the Artemis program, commercial deliveries beginning in 2021 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Jim Kania (left), Mass Spectrometer Observing Lunar Operations (MSOLO) software engineering lead, and Pri Johnson, MSOLO systems engineer, participate in simulation training at NASA’s Kennedy Space Center in Florida on May 25, 2023, in preparation for the agency’s Volatile Investigating Polar Exploration Rover (VIPER) mission. The purpose of the training was to get the integrated VIPER team – a mix of engineers from Kennedy and NASA’s Ames Research Center in California – accustomed to operating together during phases of the mission where the rover will be driving. MSOLO is a modified commercial off-the-shelf mass spectrometer that will help the agency analyze the chemical makeup of landing sites on the Moon and study water on the lunar surface. MSOLO, as part of VIPER, is scheduled to launch on a SpaceX Falcon Heavy rocket through NASA’s Commercial Lunar Payload Delivery Service (CLPS) initiative in late 2024, landing at the Moon’s South Pole aboard Astrobotic’s Griffin lander. Through Artemis missions, CLPS deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human deep space exploration missions.

Jim Kania (left), Mass Spectrometer Observing Lunar Operations (MSOLO) software engineering lead, and Pri Johnson, MSOLO systems engineer, participate in simulation training at NASA’s Kennedy Space Center in Florida on May 25, 2023, in preparation for the agency’s Volatile Investigating Polar Exploration Rover (VIPER) mission. The purpose of the training was to get the integrated VIPER team – a mix of engineers from Kennedy and NASA’s Ames Research Center in California – accustomed to operating together during phases of the mission where the rover will be driving. MSOLO is a modified commercial off-the-shelf mass spectrometer that will help the agency analyze the chemical makeup of landing sites on the Moon and study water on the lunar surface. MSOLO, as part of VIPER, is scheduled to launch on a SpaceX Falcon Heavy rocket through NASA’s Commercial Lunar Payload Delivery Service (CLPS) initiative in late 2024, landing at the Moon’s South Pole aboard Astrobotic’s Griffin lander. Through Artemis missions, CLPS deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human deep space exploration missions.

Janine Captain, at right, principal investigator for NASA’s Mass Spectrometer observing lunar operations (MSolo) and Kevin Smith, software team and science team liaison at NASA’s Kennedy Space Center in Florida, confer during a joint simulation of the Peregrine One Mission on March 26, 2021, where MSolo is connected from inside the Neil Armstrong Operations and Checkout Building to Astrobotic’s mission control facility in Pittsburgh, Pennsylvania. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This was the first mission round of simulations for Peregrine Mission One to develop and refine procedures between Astrobotic’s Peregrine Lander and MSolo. Later, there will be other simulations with multiple instruments. Peregrine Mission One will be one of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) missions where under the Artemis program, commercial deliveries beginning in 2021 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Mass Spectrometer Observing Lunar Operations (MSOLO) Software Engineering Lead Jim Kania participates in simulation training at NASA’s Kennedy Space Center in Florida on May 25, 2023, in preparation for the agency’s Volatile Investigating Polar Exploration Rover (VIPER) mission. The purpose of the training was to get the integrated VIPER team – a mix of engineers from Kennedy and NASA’s Ames Research Center in California – accustomed to operating together during phases of the mission where the rover will be driving. MSOLO is a modified commercial off-the-shelf mass spectrometer that will help the agency analyze the chemical makeup of landing sites on the Moon and study water on the lunar surface. MSOLO, as part of VIPER, is scheduled to launch on a SpaceX Falcon Heavy rocket through NASA’s Commercial Lunar Payload Delivery Service (CLPS) initiative in late 2024, landing at the Moon’s South Pole aboard Astrobotic’s Griffin lander. Through Artemis missions, CLPS deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human deep space exploration missions.

Rolando Nieves, software architect for NASA’s Mass Spectrometer observing lunar operations (MSolo) takes part in a joint simulation of the Peregrine One Mission on March 26, 2021, where MSolo is connected from inside the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida to Astrobotic’s mission control facility in Pittsburgh, Pennsylvania. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This was the first mission round of simulations for Peregrine Mission One to develop and refine procedures between Astrobotic’s Peregrine Lander and MSolo. Later, there will be other simulations with multiple instruments. Peregrine Mission One will be one of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) missions where under the Artemis program, commercial deliveries beginning in 2021 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Kevin Smith, software team and science team liaison for NASA’s Mass Spectrometer observing lunar operations (MSolo), takes part in a joint simulation of the Peregrine One Mission on March 26, 2021, at NASA’s Kennedy Space Center in Florida, where MSolo connected from inside the Neil Armstrong Operations and Checkout Building to Astrobotic’s mission control facility in Pittsburgh, Pennsylvania. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. This was the first mission round of simulations for Peregrine Mission One to develop and refine procedures between Astrobotic’s Peregrine Lander and MSolo. Later, there will be other simulations with multiple instruments. Peregrine Mission One will be one of NASA’s first Commercial Lunar Payload Delivery Service (CLPS) missions where under the Artemis program, commercial deliveries beginning in 2021 will perform science experiments, test technologies and demonstrate capabilities to help NASA explore the Moon and prepare for human missions.

Pri Johnson (left), Mass Spectrometer Observing Lunar Operations (MSOLO) systems engineer, and Jim Kania, MSOLO software engineering lead, participate in simulation training at NASA’s Kennedy Space Center in Florida on May 25, 2023, in preparation for the agency’s Volatile Investigating Polar Exploration Rover (VIPER) mission. The purpose of the training was to get the integrated VIPER team – a mix of engineers from Kennedy and NASA’s Ames Research Center in California – accustomed to operating together during phases of the mission where the rover will be driving. MSOLO is a modified commercial off-the-shelf mass spectrometer that will help the agency analyze the chemical makeup of landing sites on the Moon and study water on the lunar surface. MSOLO, as part of VIPER, is scheduled to launch on a SpaceX Falcon Heavy rocket through NASA’s Commercial Lunar Payload Delivery Service (CLPS) initiative in late 2024, landing at the Moon’s South Pole aboard Astrobotic’s Griffin lander. Through Artemis missions, CLPS deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human deep space exploration missions.

Mass Spectrometer Observing Lunar Operations (MSOLO) Systems Engineer Pri Johnson participates in simulation training at NASA’s Kennedy Space Center in Florida on May 25, 2023, in preparation for the agency’s Volatile Investigating Polar Exploration Rover (VIPER) mission. The purpose of the training was to get the integrated VIPER team – a mix of engineers from Kennedy and NASA’s Ames Research Center in California – accustomed to operating together during phases of the mission where the rover will be driving. MSOLO is a modified commercial off-the-shelf mass spectrometer that will help the agency analyze the chemical makeup of landing sites on the Moon and study water on the lunar surface. MSOLO, as part of VIPER, is scheduled to launch on a SpaceX Falcon Heavy rocket through NASA’s Commercial Lunar Payload Delivery Service (CLPS) initiative in late 2024, landing at the Moon’s South Pole aboard Astrobotic’s Griffin lander. Through Artemis missions, CLPS deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human deep space exploration missions.

Two Intuitive Machines employees ready navigation pod sensors for the company’s Nova-C lunar lander in preparation for testing at NASA’s Kennedy Space Center in Florida on Nov. 18, 2022. The test involved flying the sensors over a simulated lunar surface at the Launch and Landing Facility on a private helicopter. Intuitive Machines is scheduled to launch two missions to the Moon in 2023 – one of which will carry NASA’s Mass Spectrometer observing lunar operations (MSolo) instrument that will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Through NASA’s Commercial Lunar Payload Services initiative, the agency selected Intuitive Machines to deliver science and technology demonstration payloads to the Moon, contributing to NASA’s goal of establishing a sustainable human presence on the lunar surface.

Testing of navigation pod sensors for Intuitive Machines’ Nova-C lunar lander is underway at NASA’s Kennedy Space Center in Florida on Nov. 18, 2022. The test involved flying the sensors over a simulated lunar surface at the Launch and Landing Facility on a private helicopter. Intuitive Machines is scheduled to launch two missions to the Moon in 2023 – one of which will carry NASA’s Mass Spectrometer observing lunar operations (MSolo) instrument that will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Through NASA’s Commercial Lunar Payload Services initiative, the agency selected Intuitive Machines to deliver science and technology demonstration payloads to the Moon, contributing to NASA’s goal of establishing a sustainable human presence on the lunar surface.

Testing of navigation pod sensors for Intuitive Machines’ Nova-C lunar lander is underway at NASA’s Kennedy Space Center in Florida on Nov. 18, 2022. The test involved flying the sensors over a simulated lunar surface at the Launch and Landing Facility on a private helicopter. Intuitive Machines is scheduled to launch two missions to the Moon in 2023 – one of which will carry NASA’s Mass Spectrometer observing lunar operations (MSolo) instrument that will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Through NASA’s Commercial Lunar Payload Services initiative, the agency selected Intuitive Machines to deliver science and technology demonstration payloads to the Moon, contributing to NASA’s goal of establishing a sustainable human presence on the lunar surface.

Two Intuitive Machines employees ready navigation pod sensors for the company’s Nova-C lunar lander in preparation for testing at NASA’s Kennedy Space Center in Florida on Nov. 18, 2022. The test involved flying the sensors over a simulated lunar surface at the Launch and Landing Facility on a private helicopter. Intuitive Machines is scheduled to launch two missions to the Moon in 2023 – one of which will carry NASA’s Mass Spectrometer observing lunar operations (MSolo) instrument that will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Through NASA’s Commercial Lunar Payload Services initiative, the agency selected Intuitive Machines to deliver science and technology demonstration payloads to the Moon, contributing to NASA’s goal of establishing a sustainable human presence on the lunar surface.

Seen here is Intuitive Machines’ navigation pod sensors for the company’s Nova-C lunar lander ahead of testing done at NASA’s Kennedy Space Center in Florida on Nov. 18, 2022. The test involved flying the sensors over a simulated lunar surface at the Launch and Landing Facility on a private helicopter. Intuitive Machines is scheduled to launch two missions to the Moon in 2023 – one of which will carry NASA’s Mass Spectrometer observing lunar operations (MSolo) instrument that will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Through NASA’s Commercial Lunar Payload Services initiative, the agency selected Intuitive Machines to deliver science and technology demonstration payloads to the Moon, contributing to NASA’s goal of establishing a sustainable human presence on the lunar surface.

Seen here is a close-up view of Intuitive Machines’ navigation pod sensors for the company’s Nova-C lunar lander ahead of testing done at NASA’s Kennedy Space Center in Florida on Nov. 18, 2022. The test involved flying the sensors over a simulated lunar surface at the Launch and Landing Facility on a private helicopter. Intuitive Machines is scheduled to launch two missions to the Moon in 2023 – one of which will carry NASA’s Mass Spectrometer observing lunar operations (MSolo) instrument that will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Through NASA’s Commercial Lunar Payload Services initiative, the agency selected Intuitive Machines to deliver science and technology demonstration payloads to the Moon, contributing to NASA’s goal of establishing a sustainable human presence on the lunar surface.

Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface.

A team from Honeybee Robotics in Altadena, California participates in simulation training for the Polar Resources Ice Mining Experiment-1 (PRIME-1) on Thursday, Nov. 2, 2023, inside the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida. The purpose of the training is to get the integrated PRIME-1 team – engineers with PRIME-1’s MSOLO (Mass Spectrometer Observing Lunar Operations) and Honeybee Robotics’ TRIDENT (The Regolith and Ice Drill for Exploring New Terrain) drill – prepared to operate the instrument on the lunar surface. The team commanded the PRIME-1 hardware, located at Intuitive Machines in Houston, to operate MSOLO and TRIDENT. PRIME-1 is scheduled to launch through NASA’s CLPS (Commercial Lunar Payload Delivery Service) initiative and will be the first in-situ resource utilization demonstration on the Moon, with MSOLO and TRIDENT making up its two primary components. Through Artemis missions, CLPS deliveries will be used to perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human deep space exploration missions.