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Author Topic:   NASA's Commercial Lunar Payload Services
Robert Pearlman
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posted 11-29-2018 01:46 PM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
NASA release
NASA Announces New Partnerships for Commercial Lunar Payload Delivery Services

Nine U.S. companies now are eligible to bid on NASA delivery services to the lunar surface through Commercial Lunar Payload Services (CLPS) contracts, as one of the first steps toward long-term scientific study and human exploration of the Moon and eventually Mars.

These companies will be able to bid on delivering science and technology payloads for NASA, including payload integration and operations, launching from Earth and landing on the surface of the Moon. NASA expects to be one of many customers that will use these commercial landing services.

"Today's announcement marks tangible progress in America's return to the Moon's surface to stay," said NASA Administrator Jim Bridenstine. "The innovation of America's aerospace companies, wedded with our big goals in science and human exploration, are going to help us achieve amazing things on the Moon and feed forward to Mars."

The selected companies are:

NASA's Science Mission Directorate (SMD) initiated the request for proposals leading to these selections as the first step in achieving a variety of science and technology objectives that could be addressed by regularly sending instruments, experiments and other small payloads to the Moon. SMD serves as the NASA interface between the agency's mission directorates, the scientific community, and other external stakeholders in developing a strategy to enable an integrated approach for robotic and human exploration within NASA's Moon to Mars Exploration Campaign.

The Commercial Lunar Payload Services contracts are indefinite delivery, indefinite quantity contracts with a combined maximum contract value of $2.6 billion during the next 10 years. The agency will look at a number of factors when comparing the bids, such as technical feasibility, price and schedule.

Lunar payloads could fly on these contracted missions as early as 2019. In October, NASA issued a call for potential lunar instruments and technologies to study the Moon, with proposals due in January. These early missions will enable important technology demonstrations that will inform the development of future landers and other exploration systems needed for humans to return to the lunar surface, and help prepare the agency to send astronauts to explore Mars.

NASA will re-examine the private market periodically for new and emerging lunar delivery capabilities, and may offer additional companies an opportunity to join Commercial Lunar Payload Services through a contract process called on-ramping.

Robert Pearlman
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NASA is accelerating its Commercial Lunar Payload Services (CLPS) program, where NASA will buy payload space on commercially developed landers, reports SpaceNews.
The first of those task orders will be announced in the next month, said Thomas Zurbuchen, NASA associate administrator for science, pending finalization of the agency’s fiscal year 2019 budget. “We’d like to fly this calendar year,” he said. “We want to go fast.” The ability to do so, he said, will depend on whether companies have landers ready to go.

To try to get a first CLPS payload launched this year, Zurbuchen said it will offer unspecified financial bonuses. “If you can fly faster, we will incentivize that,” he said. “We care about speed.”

NASA is also lining up payloads to fly on those CLPS missions. Zurbuchen said NASA will announce the week of Feb. 18 the selection of about 12 payloads proposed within the agency that would be ready to fly later this year. “If we have a ride in late 2019, we will have instruments in late 2019,” he said.

Those payloads will be a mix of science and technology development investigations, from a near-infrared spectrometer to a test of stereo imaging to analyze plumes created during landing. Some of those, he said, were originally developed for Resource Prospector, a NASA mission cancelled as the agency shifted to commercial landers.

Robert Pearlman
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NASA release
NASA Selects Experiments for Possible Lunar Flights in 2019

NASA has selected 12 science and technology demonstration payloads to fly to the Moon as early as the end of this year, dependent upon the availability of commercial landers. These selections represent an early step toward the agency's long-term scientific study and human exploration of the Moon and, later, Mars.

"The Moon has unique scientific value and the potential to yield resources, such as water and oxygen," said NASA Administrator Jim Bridenstine. "Its proximity to Earth makes it especially valuable as a proving ground for deeper space exploration."

NASA's Science Mission Directorate (SMD) initiated the request for proposals leading to these selections as the first step in achieving a variety of science and technology objectives that could be met by regularly sending instruments, experiments and other small payloads to the Moon.

"This payload selection announcement is the exciting next step on our path to return to the surface of the Moon," said Steve Clarke, SMD's deputy associate administrator for Exploration at NASA Headquarters in Washington. "The selected payloads, along with those that will be awarded through the Lunar Surface Instrument and Technology Payloads call, will begin to build a healthy pipeline of scientific investigations and technology development payloads that we can fly to the lunar surface using U.S. commercial landing delivery services. Future calls for payloads are planned to be released each year for additional opportunities," he said.

The selected payloads include a variety of scientific instruments.

  • The Linear Energy Transfer Spectrometer will measure the lunar surface radiation environment.

  • Three resource prospecting instruments have been selected to fly:
    • The Near-Infrared Volatile Spectrometer System is an imaging spectrometer that will measure surface composition.

    • The Neutron Spectrometer System and Advanced Neutron Measurements at the Lunar Surface are neutron spectrometers that will measure hydrogen abundance.

    • The Ion-Trap Mass Spectrometer for Lunar Surface Volatiles instrument is an ion-trap mass spectrometer that will measure volatile contents in the surface and lunar exosphere.

  • A magnetometer will measure the surface magnetic field.

  • The Low-frequency Radio Observations from the Near Side Lunar Surface instrument, a radio science instrument, will measure the photoelectron sheath density near the surface.

  • Three instruments will acquire critical information during entry, descent and landing on the lunar surface, which will inform the design of future landers including the next human lunar lander.

  • The Stereo Cameras for Lunar Plume-Surface Studies will image the interaction between the lander engine plume as it hits the lunar surface.

  • The Surface and Exosphere Alterations by Landers payload will monitor how the landing affects the lunar exosphere.

  • The Navigation Doppler Lidar for Precise Velocity and Range Sensing payload will make precise velocity and ranging measurements during the descent that will help develop precision landing capabilities for future landers.
There also are two technology demonstrations selected to fly.
  • The Solar Cell Demonstration Platform for Enabling Long-Term Lunar Surface Power will demonstrate advanced solar arrays for longer mission duration.

  • The Lunar Node 1 Navigation Demonstrator will demonstrate a navigational beacon to assist with geolocation for lunar orbiting spacecraft and landers.
NASA facilities across the nation are developing the payloads, including Ames Research Center in California's Silicon Valley; Glenn Research Center in Cleveland; Goddard Space Flight Center in Greenbelt, Maryland; Johnson Space Center in Houston; Langley Research Center in Hampton, Virginia; and Marshall Space Flight Center in Huntsville, Alabama.

Nine U.S. companies, selected through NASA's Commercial Lunar Payload Services (CLPS) in November 2018, currently are developing landers to deliver NASA payloads to the Moon's surface. As CLPS providers, they are pre-authorized to compete on individual delivery orders.

NASA also released the Lunar Surface Instrument and Technology Payload (LSITP) call in October 2018 soliciting proposals for science instrument and technology investigations. The final LSITP proposals are due Feb. 27 and awards are expected to be made this spring.

"Once we have awarded the first CLPS mission task order later this spring, we will then select the specific payloads from the internal-NASA and LSITP calls to fly on that mission. Subsequent missions will fly other NASA instrument and technology development packages in addition to commercial payloads," said Clarke.

Commercial lunar payload delivery services for small payloads, and developing lunar landers for large payloads, to conduct more research on the Moon's surface is a vital step ahead of a human return.

As the next major step to return astronauts to the Moon under Space Policy Directive-1, NASA has announced plans to work with American companies to design and develop new reusable systems for astronauts to land on the lunar surface. The agency is planning to test new human-class landers on the Moon beginning in 2024, with the goal of sending crew to the surface by 2028.

Robert Pearlman
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NASA release
NASA Selects First Commercial Moon Landing Services for Artemis Program

NASA has selected three commercial Moon landing service providers that will deliver science and technology payloads under Commercial Lunar Payload Services (CLPS) as part of the Artemis program. Each commercial lander will carry NASA-provided payloads that will conduct science investigations and demonstrate advanced technologies on the lunar surface, paving the way for NASA astronauts to land on the lunar surface by 2024.

"Our selection of these U.S. commercial landing service providers represents America's return to the Moon's surface for the first time in decades, and it's a huge step forward for our Artemis lunar exploration plans," said NASA Administrator Jim Bridenstine. "Next year, our initial science and technology research will be on the lunar surface, which will help support sending the first woman and the next man to the Moon in five years. Investing in these commercial landing services also is another strong step to build a commercial space economy beyond low-Earth orbit."

As part of their submissions, each partner proposed flying specific NASA instruments to the lunar surface. By the end of the summer, NASA will determine which payloads will fly on each flight. The potential payloads include instruments that will conduct new lunar science, pinpoint lander position, measure the lunar radiation environment, assess how lander and astronaut activity affects the Moon, and assist with navigation precision, among other capabilities.

The selections are:

  • Astrobotic of Pittsburgh has been awarded $79.5 million and has proposed to fly as many as 14 payloads to Lacus Mortis, a large crater on the near side of the Moon, by July 2021.
  • Intuitive Machines of Houston has been awarded $77 million. The company has proposed to fly as many as five payloads to Oceanus Procellarum, a scientifically intriguing dark spot on the Moon, by July 2021.
  • Orbit Beyond of Edison, New Jersey, has been awarded $97 million and has proposed to fly as many as four payloads to Mare Imbrium, a lava plain in one of the Moon's craters, by September 2020.

"These landers are just the beginning of exciting commercial partnerships that will bring us closer to solving the many scientific mysteries of our Moon, our solar system, and beyond," said Thomas Zurbuchen, associate administrator of NASA's Science Mission Directorate in Washington. "What we learn will not only change our view of the universe, but also prepare our human missions to the Moon and eventually Mars."

Each partner is providing end-to-end commercial payload delivery services to NASA, including payload integration and operations, launch from Earth and landing on the surface of the Moon. These early missions will enable important technology demonstrations that will inform the development of future landers and other exploration systems needed for humans to return to the lunar surface. They also will help prepare the agency to send astronauts to explore Mars.

"This announcement starts a significant step in NASA's collaboration with our commercial partners," said Chris Culbert, CLPS program manager at NASA's Johnson Space Center in Houston. "NASA is committed to working with industry to enable the next round of lunar exploration. The companies we have selected represent a diverse community of exciting small American companies, each with their own unique, innovative approach to getting to the Moon. We look forward to working with them to have our payloads delivered and opening the door for returning humans to the Moon."

As additional science, technology demonstration, and human exploration requirements for payloads develop, a request for task order bids will go to all current CLPS contractors. All nine companies initially selected in November 2018 for CLPS will be eligible to bid on subsequent task orders.

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Who chose the landing areas, the contractors or NASA?

Robert Pearlman
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The companies' proposals included the landing sites they were targeting. Now the three companies have been selected, NASA says it will review the site choices to maximize the return on its contracted science payloads.

Robert Pearlman
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NASA release
Commercial Lunar Payload Services Update

NASA's Commercial Lunar Payload Services contract was designed for quick access to the Moon with science and technology payloads delivered by commercial partners. Since the project began, NASA has selected nine companies that are eligible to bid on specific task orders based on NASA priorities. The agency also has announced 12 payloads consisting of science instruments developed around the country at NASA centers. Early this month NASA selected 12 additional instruments being developed by outside organizations that would help the agency return to the Moon and have broader applications to Mars and beyond. Those payloads have not yet been assigned flights.

"We know that CLPS missions are going to be challenging for various reasons, and they may not always succeed," said Thomas Zurbuchen, head of the agency's Science Mission Directorate in Washington. "We're willing to accept some risk in order to get back to the Moon quickly, with commercial partners, and do exciting science and technology development with broad applications."

While the first three companies selected to carry payloads to the Moon were announced in May, one of them, Orbit Beyond, Inc., has informed NASA of internal corporate challenges that will prevent the timely completion of its awarded task order. As a result, Orbit Beyond requested to be released from the task order agreement. NASA made a contract administration decision to comply with OBI's request and, as a result, terminated the task order effective July 28, 2019 on terms mutually agreeable to both parties. Orbit Beyond remains a CLPS contract awardee and may be eligible to compete for future CLPS opportunities.

NASA's selections of the two other vendors (Astrobotic and Intuitive Machines) are not impacted by this decision. NASA is still on track to having our first science payloads delivered to the lunar surface in 2021. Astrobiotic has proposed to fly as many as 14 payloads to Lacus Mortis, a large crater on the near side of the Moon, by July 2021. Intuitive Machines has proposed to fly as many as five payloads for NASA to Oceanus Procellarum, a scientifically intriguing dark spot on the Moon, by July 2021.

The CLPS program continues to formulate additional requests for task order proposals to expand the scope of NASA payloads requiring transportation services to the lunar surface in advance of human return. CLPS remains strong and the project includes diverse partners helping NASA to get to the lunar surface quickly and efficiently.

Robert Pearlman
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NASA release
New Companies Join Growing Ranks of NASA Partners for Artemis Program

NASA has added five American companies to the pool of vendors that will be eligible to bid on proposals to provide deliveries to the surface of the Moon through the agency's Commercial Lunar Payload Services (CLPS) initiative.

The additions, which increase the list of CLPS participants on contract to 14, expand NASA's work with U.S. industry to build a strong marketplace to deliver payloads between Earth and the Moon and broaden the network of partnerships that will enable the first woman and next man to set foot on the Moon by 2024 as part of the agency's Artemis program.

"American aerospace companies of all sizes are joining the Artemis program," said NASA Administrator Jim Bridenstine. "Expanding the group of companies who are eligible to bid on sending payloads to the Moon's surface drives innovation and reduces costs to NASA and American taxpayers. We anticipate opportunities to deliver a wide range of science and technology payloads to help make our vision for lunar exploration a reality and advance our goal of sending humans to explore Mars."

The selected companies are:

  • Blue Origin, Kent, Washington
  • Ceres Robotics, Palo Alto, California
  • Sierra Nevada Corporation, Louisville, Colorado
  • SpaceX, Hawthorne, California
  • Tyvak Nano-Satellite Systems Inc., Irvine, California
In July, NASA announced an opportunity for American companies to propose lunar landers that can deliver heavier payloads to the surface of the Moon. These five companies, together with nine companies selected in November 2018, now are eligible to bid on launch and delivery services to the lunar surface. NASA already has awarded contracts to two vendors to send as many as 14 science payloads to the Moon in 2021 and expects to issue additional payload delivery orders.

"The CLPS initiative was designed to leverage the expertise and innovation of private industry to get to the Moon quickly," said Thomas Zurbuchen, associate administrator of the Science Mission Directorate at NASA Headquarters in Washington. "As we build a steady cadence of deliveries, we'll expand our ability to do new science on the lunar surface, develop new technologies, and support human exploration objectives."

Future payloads could include rovers, power sources, science experiments – including the agency's Volatiles Investigating Polar Exploration Rover (VIPER) – and technology demonstrations to be infused into the Artemis program. NASA expects to issue a regular series of task order proposal requests to expand the scope of agency payloads requiring transportation services to the lunar surface ahead of human landings.

"Buying rides to the Moon to conduct science investigations and test new technology systems, instead of owning the delivery systems, enables NASA to do much more, sooner and for less cost, while being one of many customers on our commercial partners' landers," said Steve Clarke, deputy associate administrator for exploration in NASA's Science Mission Directorate.

The CLPS contracts are indefinite-delivery/indefinite-quantity contracts with a combined maximum contract value of $2.6 billion through November 2028. The agency will look at a number of factors when comparing the bids from all vendors, such as technical feasibility, price and schedule.

Robert Pearlman
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NASA release
First Commercial Moon Delivery Assignments to Advance Artemis

NASA has finalized the first 16 science experiments and technology demonstrations, ranging from chemistry to communications, to be delivered to the surface of the Moon under the Artemis program. Scheduled to fly next year, the payloads will launch aboard the first two lander deliveries of the agency's Commercial Lunar Payload Services (CLPS) initiative. These deliveries will help pave the way for sending the first woman and the next man to the lunar surface by 2024.

In May 2019, the agency awarded two orders for scientific payload delivery to Astrobotic and Intuitive Machines, with both flights targeted to land on the Moon next year. Astrobotic, which will launch its Peregrine lander on a United Launch Alliance rocket, will carry 11 NASA payloads to the lunar surface, while Intuitive Machines, which will launch its Nova-C lander on a SpaceX Falcon 9 rocket, will carry five NASA payloads to the Moon.

"We've finished the work of assigning science and technology payloads to each of the initial CLPS deliveries," said Chris Culbert, CLPS project manager at NASA's Johnson Space Center in Houston. "This step allows our commercial partners to complete the important technical integration work necessary to fly the payloads and brings us a step closer to launching and landing the investigations that will help us better understand the Moon ahead of sending the first woman and next man to the Moon."

Each partner is responsible for payload integration and operations, launching from Earth and landing on the Moon, as well as securing any additional customers on their flights, if desired. The payloads are each about the size of a shoebox and range in mass from around two to 33 pounds (one to 15 kilograms).

Both Partners

Two of the payloads will be integrated onto both the Astrobotic lander and the Intuitive Machines lander. This gives NASA multiple opportunities to gather important data and demonstrate a critical technology needed for future human exploration.

  • Laser Retro-Reflector Array (LRA): LRA is a collection of eight approximately half inch (1.25 centimeter) retro-reflectors – a unique kind of mirror that is used for measuring distance -- mounted to the lander. This mirror reflects laser light from other orbiting and landing spacecraft to precisely determine the lander's position. It is being provided by NASA's Goddard Space Flight Center in Greenbelt, Maryland.

  • Navigation Doppler Lidar for Precise Velocity and Range Sensing (NDL): The NDL is a LIDAR-based (LIght Detection And Ranging) sensor composed of a three-beam optical head and a box with electronics and photonics that will provide extremely precise velocity and range sensing during descent and landing of the lander that will tightly control navigation precision for a soft and controlled touchdown on the Moon. NDL is being collaboratively developed by NASA's Johnson Space Center in Houston and Langley Research Center in Hampton, Virginia.
Astrobotic Payloads
  • Surface Exosphere Alterations by Landers (SEAL): SEAL will investigate the chemical response of lunar regolith to the thermal, physical and chemical disturbances generated during a landing, and evaluate contaminants injected into the regolith by the landing itself. It will give scientists insight into the how a spacecraft landing might affect the composition of samples collected nearby. It is being developed at NASA Goddard.

  • Photovoltaic Investigation on Lunar Surface (PILS): PILS is a technology demonstration that is based on an International Space Station test platform for validating solar cells that convert light to electricity. It will demonstrate advanced photovoltaic high-voltage use for lunar surface solar arrays useful for longer mission durations. It is being developed at Glenn Research Center in Cleveland.

  • Linear Energy Transfer Spectrometer (LETS): The LETS radiation sensor will collect information about the lunar radiation environment and relies on flight-proven hardware that flew in space on the Orion spacecraft's inaugural uncrewed flight in 2014. It is being developed at NASA Johnson.

  • Near-Infrared Volatile Spectrometer System (NIRVSS): NIRVSS will measure surface and subsurface hydration, carbon dioxide and methane – all resources that could potentially be mined from the Moon -- while also mapping surface temperature and changes at the landing site. It is being developed at Ames Research Center in Silicon Valley, California.

  • Mass Spectrometer Observing Lunar Operations (MSolo): MSolo will identify low-molecular weight volatiles. It can be installed to either measure the lunar exosphere or the spacecraft outgassing and contamination. Data gathered from MSolo will help determine the composition and concentration of potentially accessible resources. It is being developed at Kennedy Space Center in Florida.

  • PROSPECT Ion-Trap Mass Spectrometer (PITMS) for Lunar Surface Volatiles: PITMS will characterize the lunar exosphere after descent and landing and throughout the lunar day to understand the release and movement of volatiles. It was previously developed for ESA's (European Space Agency) Rosetta mission and is being modified for this mission by NASA Goddard and ESA.

  • Neutron Spectrometer System (NSS): NSS will search for indications of water-ice near the lunar surface by measuring how much hydrogen-bearing materials are at the landing site as well as determine the overall bulk composition of the regolith there. NSS is being developed at NASA Ames.

  • Neutron Measurements at the Lunar Surface (NMLS): NMLS will use a neutron spectrometer to determine the amount of neutron radiation at the Moon's surface, and also observe and detect the presence of water or other rare elements. The data will help inform scientists' understanding of the radiation environment on the Moon. It's based on an instrument that currently operates on the space station and is being developed at Marshall Space Flight Center in Huntsville, Alabama.

  • Fluxgate Magnetometer (MAG): MAG will characterize certain magnetic fields to improve understanding of energy and particle pathways at the lunar surface. NASA Goddard is the lead development center for the MAG payload.
Intuitive Machines Payloads
  • Lunar Node 1 Navigation Demonstrator (LN-1): LN-1 is a CubeSat-sized experiment that will demonstrate autonomous navigation to support future surface and orbital operations. It has flown on the space station and is being developed at NASA Marshall.

  • Stereo Cameras for Lunar Plume-Surface Studies (SCALPSS): SCALPSS will capture video and still image data of the lander's plume as the plume starts to impact the lunar surface until after engine shut off, which is critical for future lunar and Mars vehicle designs. It is being developed at NASA Langley, and also leverages camera technology used on the Mars 2020 rover.

  • Low-frequency Radio Observations for the Near Side Lunar Surface (ROLSES): ROLSES will use a low-frequency radio receiver system to determine photoelectron sheath density and scale height. These measurements will aide future exploration missions by demonstrating if there will be an effect on the antenna response or larger lunar radio observatories with antennas on the lunar surface. In addition, the ROLSES measurements will confirm how well a lunar surface-based radio observatory could observe and image solar radio bursts. It is being developed at NASA Goddard.
NASA has 14 companies on contract through CLPS to bid on delivering science experiments and technology demonstrations to the lunar surface. Investigations and demonstrations launched on commercial Moon flights will help the agency study Earth's nearest neighbor, and prepare for human lunar missions beginning in 2024 under the Artemis program.

NASA anticipates advancements in landers and rovers will be needed to expand the range and duration of its science and technology experiments. Through CLPS, the agency plans to work with its partners to send about two deliveries of scientific and research payloads to the Moon per year starting in 2021.

Robert Pearlman
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NASA release
NASA Enlists Commercial Partners to Fly Payloads to Moon

NASA has issued another request to its 14 Commercial Lunar Payload Services (CLPS) partners to bid on flying a suite of payloads to the Moon. The request asks partners to fly 10 NASA science investigations and technology demonstrations to a non-polar region of the Moon in 2022.

Through the CLPS initiative, NASA taps its commercial partners to quickly land scientific instruments and technology demonstrations on the Moon. The initiative is a key part of NASA's Artemis program. The science and technology payloads will help lay the foundation for human missions to the lunar surface. A provider will be selected by the end of the year, making it the sixth surface task award.

The payloads, collectively expected to be about 200 pounds (100 kg) in mass, include:

  • Regolith Adherence Characterization (RAC): will determine how lunar regolith sticks to a range of materials exposed to the Moon's environment at different phases of flight. Components will be derived from the Materials International Space Station Experiment (MISSE) facility currently on the International Space Station.

  • Next Generation Lunar Retroreflectors (NGLR): will serve as a target for lasers on Earth to precisely measure the distance between Earth and the Moon. These retroreflectors, one of which will fly on this mission, are designed to provide data that could be used to understand various aspects of the lunar interior and address fundamental physics questions.

  • Lunar Environment Heliospheric X-ray Imager (LEXI): will capture images of the interaction of Earth's magnetosphere with the flow of charged particles from the Sun, called the solar wind.

  • Reconfigurable, Radiation Tolerant Computer System (RadPC): aims to demonstrate a radiation-tolerant computing technology. Due to the Moon's lack of atmosphere and magnetic field, radiation from the Sun will be a challenge for electronics. This investigation also will characterize the radiation effects on the lunar surface.

  • The Lunar Magnetotelluric Sounder (LMS): designed to characterize the structure and composition of the Moon's mantle by studying electric and magnetic fields. The investigation will make use of a flight-spare magnetometer, a device that measures magnetic fields, originally made for the Mars Atmosphere and Volatile EvolutioN (MAVEN) spacecraft currently orbiting Mars.

  • Lunar Instrumentation for Subsurface Thermal Exploration with Rapidity (LISTER): designed to measure heat flow from the interior of the Moon. The probe will attempt to drill 7 to 10 feet (2 to 3 meters) into the lunar regolith to investigate the Moon's thermal properties at different depths.

  • Lunar PlanetVac (LPV): a technology for acquiring and transferring lunar regolith from the surface to other instruments that would analyze the material, or put it in a container that another spacecraft could return to Earth.

  • Stereo Cameras for Lunar Plume Surface Studies (SCALPSS 1.1): will capture video and still-image data of the area under the lander from just before the point the engine plume first disturbs the lunar surface through engine shutdown. Long-focal-length cameras will determine the pre-landing surface topography. Photogrammetry will be used to reconstruct the changing three-dimensional surface during landing. Understanding the physics of rocket exhaust on the regolith, and the displacement of dust, gravel, rocks, etc., is critical to understanding how to best mitigate the ejecta during the terminal phase of flight/landing on the Moon, and other celestial bodies.

  • Electrodynamic Dust Shield (EDS): a technology that generates a non-uniform electric field using varying high voltage on multiple electrodes. The non-uniform field generates a dielectrophoretic (DEP) force which, in turn, moves the particles, and has potential implications for thermal radiators, spacesuit fabrics, visors, camera lenses, solar panels, and many other technologies.

  • Lunar GNSS Receiver Experiment (LuGRE): based on the U.S. Global Positioning System (GPS), LuGRE will continue to extend the reach of GPS signals and, if successful, be the first to discern GPS signals at lunar distances.

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NASA release
NASA Selects New Science Investigations for Future Moon Deliveries

As NASA continues plans for multiple commercial deliveries to the Moon's surface per year, the agency has selected three new scientific investigation payload suites to advance understanding of Earth's nearest neighbor. Two of the payload suites will land on the far side of the Moon, a first for NASA. All three investigations will receive rides to the lunar surface as part of NASA's Commercial Lunar Payload Services, or CLPS, initiative, part of the agency's Artemis approach.

The payloads mark the agency's first selections from its Payloads and Research Investigations on the Surface of the Moon (PRISM) call for proposals.

"These selections add to our robust pipeline of science payloads and investigations to be delivered to the Moon through CLPS," said Joel Kearns, deputy associate administrator for exploration in NASA's Science Mission Directorate. "With each new PRISM selection, we will build on our capabilities to enable bigger and better science and prove technology which will help pave the way for returning astronauts to the Moon through Artemis."

Lunar Vertex, one of the three selections, is a joint lander and rover payload suite slated for delivery to Reiner Gamma – one of the most distinctive and enigmatic natural features on the Moon, known as a lunar swirl. Scientists don't fully understand what lunar swirls are or how they form, but they know they are closely related to anomalies associated with the Moon's magnetic field. The Lunar Vertex rover will make detailed surface measurements of the Moon's magnetic field using an onboard magnetometer. Lunar surface magnetic field data the rover collects will enhance data the spacecraft collects in orbit around the Moon and help scientists better understand how these mysterious lunar swirls form and evolve, as well as provide further insight into the Moon's interior and core. Dr. David Blewett of the Johns Hopkins University Applied Physics Laboratory leads this payload suite.

NASA also has selected two separate payload suites for delivery in tandem to Schrödinger basin, which is a large impact crater on the far side of the Moon near the lunar South Pole. The Farside Seismic Suite (FSS), one of the two payloads to be delivered to Schrödinger basin, will carry two seismometers: the vertical Very Broadband seismometer and the Short Period sensor. NASA measured seismic activity on the near side of the Moon as part of the Apollo program, but FSS will return the agency's first seismic data from the far side of the Moon—a potential future destination for Artemis astronauts. This new data could help scientists better understand tectonic activity on the far side of the Moon, reveal how often the lunar far side is impacted by small meteorites, and provide new constraints on the internal structure of the Moon. FSS will continue taking data for several months on the lunar surface beyond the lifetime of the lander. To survive the two-week long lunar nights, the FSS package will be self-sufficient with independent power, communications, and thermal control. Dr. Mark Panning of NASA's Jet Propulsion Laboratory in California leads this payload suite.

The Lunar Interior Temperature and Materials Suite (LITMS), the other payload headed to Schrödinger basin, is a suite of two instruments: the Lunar Instrumentation for Thermal Exploration with Rapidity pneumatic drill and the Lunar Magnetotelluric Sounder. This payload suite will investigate the heat flow and electrical conductivity of the lunar interior in Schrödinger basin, giving an in-depth look at the Moon's internal mechanical and heat flow. LITMS data also will complement seismic data acquired by the FSS to provide a more complete picture of the near- and deep-subsurface of the far side of the Moon. Dr. Robert Grimm of the Southwest Research Institute leads this payload suite.

While these selections are final, negotiations are continuing for each award amount.

"These investigations demonstrate the power of CLPS to deliver big science in small packages, providing access to the lunar surface to address high priority science goals for the Moon," said Lori Glaze, director of NASA's Planetary Science Division. "When scientists analyze these new data alongside lunar samples returned from Apollo and data from our many orbital missions, they will advance our knowledge of the lunar surface and interior, and increase our understanding of crucial phenomenon such as space weathering to inform future crewed missions to the Moon and beyond."

With these selections in place, NASA will work with the CLPS office at the agency's Johnson Space Center in Houston to issue task orders to deliver these payload suites to the Moon in the 2024 timeframe.

For these payload suites, the agency also has selected two project scientists to coordinate science activities including selecting landing sites, developing concepts of operations, and archiving science data acquired during surface operations. Dr. Heidi Haviland of NASA's Marshall Space Flight Center in Huntsville, Alabama, will coordinate the suite slated for delivery to Reiner Gamma, and Dr. Brent Garry of NASA's Goddard Space Flight Center in Greenbelt, Maryland, will coordinate payload deliveries to Schrödinger basin.

CLPS is a key part of NASA's Artemis lunar exploration efforts. The science and technology payloads sent to the Moon's surface as part of CLPS, will help lay the foundation for human missions and a sustainable human presence on the lunar surface. The agency has made six task order awards to CLPS providers for lunar deliveries between late 2021-2023, with more delivery awards expected at least through 2028.

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NASA release
New NASA Artemis Instruments to Study Volcanic Terrain on the Moon

As part of NASA's regular cadence of robotic lunar missions through Artemis, the agency has selected a new scientific payload to establish the age and composition of hilly terrain created by volcanic activity on the near side of the Moon.

The DIMPLE instrument suite, short for Dating an Irregular Mare Patch with a Lunar Explorer, will investigate the Ina Irregular Mare Patch, discovered in 1971 by Apollo 15 orbital images. Learning more about this mound will address outstanding questions about the evolution of the Moon, which in turn can provide clues to the history of the entire solar system.

DIMPLE is the result of the third annual proposal call for PRISM (Payloads and Research Investigations on the Surface of the Moon), which sends science investigations to the Moon through a NASA initiative called CLPS, or Commercial Lunar Payload Services. This PRISM call was the first that allowed proposers to choose and justify a particular landing site for conducting high-priority lunar science investigations.

"This commercial payload delivery initiative is helping to provide a burst of lunar science and exploration," said Nicola Fox, associate administrator for science at NASA Headquarters in Washington. "DIMPLE will add to a growing body of knowledge about the Moon, which in turn helps us understand the origins of Earth and other planets in the solar system. Additionally, the more we understand about our closest neighbor, the more we can support long-term human exploration at the Moon, and someday, Mars."

The cost cap for the payload suite is $50 million, and the delivery date is set for no earlier than the second quarter of 2027. NASA expects to work on issuing a CLPS task order in 2024 to determine the launch services to deliver DIMPLE to the Moon.

Such efforts are part of NASA's larger lunar plans – through Artemis, NASA will explore more of the Moon than ever before with advanced robotics and astronauts.

The Moon is a rich destination for scientific discovery. While some 70 Irregular Mare Patches have been discovered by NASA's Lunar Reconnaissance Orbiter, Ina remains the largest identified so far.

DIMPLE will help determine whether Irregular Mare Patches formed from recent or ancient volcanic processes. The mission will make use of a CLPS-provided rover, a collection gripping instrument, and a spectrometer that can help determine composition of the lunar material to analyze the age and composition of samples collected from the surface of Ina. DIMPLE will be able to collect and analyze anywhere from three to more than 25 samples to learn more about the timing of the volcanic activity that formed this feature. For example, if the volcanic activity turns out to be geologically recent, it implies that either the lunar mantle was warmer than previously thought, or that radioactive elements contributed to small-scale eruptions continuing later in lunar evolution than previously thought. Either scenario would help us better understand the geochemical state of the Moon over time. If, on the other hand, the eruptions creating Ina turn out to be older, it would lead to reevaluating the age and evolution of craters on the Moon – which would have implications for understanding the history of Earth and other planets in the solar system.

"With the selection of DIMPLE, we aim to definitively resolve the debate on how recently the Moon was volcanically active," said Joel Kearns, deputy associate administrator for exploration in NASA's Science Mission Directorate. "Not only is this a scientifically intriguing enigma that will fundamentally change our understanding of lunar thermal evolution, but this is also the demonstration of an exciting technology that can be used to measure absolute ages of a variety of geologic terrains across the solar system."

The principal investigator for the DIMPLE mission is F. Scott Anderson of Southwest Research Institute's Solar System Science and Exploration Division, which is located in Boulder, Colorado. The CLPS initiative is a key part of NASA's Artemis lunar exploration efforts. By taking advantage of commercial launch providers, NASA can perform cutting-edge science at the Moon in a more cost-effective way. The science and technology payloads sent to the Moon's surface as part of the initiative will help lay the foundation for the next human missions.

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