SERIES-2 (лунный посадочный модуль) – 2025

Автор zandr, 23.07.2022 08:35:31

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zandr

https://www.militarynews.ru/story.asp?rid=1&nid=578247&lang=RU
ЦитатаNASA выбрало компанию Draper для доставки полезной нагрузки на обратную сторону Луны в 2025 году
       Вашингтон. 22 июля. ИНТЕРФАКС - Национальное управление США по аэронавтике и исследованию космического пространства (NASA) заключило контракт с компанией Draper о доставке полезной нагрузки для проведения научных исследований на обратной стороне Луны с помощью спускаемого аппарата SERIES-2, старт миссии запланирован на 2025 год, сообщило управление на своем сайте.
       "NASA заключило контракт с компанией Draper из Кембриджа, штат Массачусетс, на доставку научных-исследовательских платформ на Луну в 2025 году в рамках программы Artemis", - говорится в сообщении.
       По условиям договора, NASA выплатит компании $73 млн, которые покроют расходы на осуществление доставки с Земли на Луну, интеграцию и обслуживание полезной нагрузки.
       Инструменты должны будут доставить в район кратера Шредингера, расположенного недалеко от Южного полюса Луны, с помощью спускаемого аппарата SERIES-2. Кратер диаметром около 320 км состоит из пород, появившихся в результате ударно-взрывного породообразования, и гладкой впадины, которая могла образоваться в результате смешения таких пород и вулканического материала при извержении вулкана.
       По данным управления, платформа доставит на Луну аппаратуру для трех научных экспериментов общей массой около 95 кг.
       Среди них: Farside Seismic Suite - набор инструментов для изучения сейсмической активности и тектонических процессов на обратной стороне Луны, Lunar Interior Temperature and Materials Suite - два инструмента для пневматического бурения поверхности, зондирования подповерхностных тепловых потоков и изучения электропроводности местности. А также экспериментальная платформа Lunar Surface ElectroMagnetics Experiment, которая будет изучать электромагнитные явления на поверхности Луны и ее ионосферу.
       Проведение научных экспериментов и размещение платформ для испытания различных технологий на Луне осуществляется для поддержки миссий лунной программы США Artemis ("Артемида"), основная цель которой - возвращение спустя 53 года американских астронавтов на поверхность спутника Земли в 2025 году, строительство около него станции и подготовка условий для его возможной колонизации в будущем.

zandr

https://www.nasa.gov/press-release/nasa-selects-draper-to-fly-research-to-far-side-of-moon
ЦитатаJul 21, 2022
RELEASE 22-076

NASA Selects Draper to Fly Research to Far Side of Moon
Lunar Lander
An illustration of Draper's SERIES-2 lunar lander, which will deliver science and technology payloads to the Moon for NASA in 2025.
Credits: Draper

NASA has awarded Draper of Cambridge, Massachusetts a contract to deliver Artemis science investigations to the Moon in 2025. The commercial delivery is part of NASA's Commercial Lunar Payload Services (CLPS) initiative under Artemis.
 Скрытый текст:

Draper will receive $73 million for the contract, and is responsible for end-to-end delivery services, including payload integration, delivery from Earth to the surface of the Moon, and payload operations. This award is the eighth surface delivery task award issued to a CLPS vendor.

"This lunar surface delivery to a geographic region on the Moon that is not visible from Earth will allow science to be conducted at a location of interest but far from the first Artemis human landing missions," said Joel Kearns, deputy associate administrator for exploration in NASA's Science Mission Directorate in Washington. "Understanding geophysical activity on the far side of the Moon will give us a deeper understanding of our solar system and provide information to help us prepare for Artemis astronaut missions to the lunar surface."

The experiments riding on Draper's SERIES-2 lander are headed to Schrödinger Basin, a large lunar impact crater on the far side of the Moon, close to the lunar South Pole. This interesting geological site is about 200 miles in diameter. The outer ring of the basin is made up of impact melt meteorites and the inner ring is known for its smooth floor deposits that may be a combination of both impact melt and volcanic material.

"The payload delivery location is a first for us. Operations from the far side of the Moon will help improve how we track activities from this location to address scientific goals - all while we gather data from the payloads," said Chris Culbert, CLPS program manager at NASA's Johnson Space Center in Houston. "The vendor-provided services will prepare for future, more complex lunar surface operations."

Schrödinger Basin is one of the youngest impact basins on the lunar surface whose impact uplifted deep crust and upper mantle of the Moon in its peak ring. Later, the inner basin was the site of a large volcanic eruption. Scientists hope to study the thermal and geophysical properties of the lunar interior as well as electric and magnetic properties in a landing location shielded from Earth's electromagnetic fields.

  • Two of the three investigations selected for this flight are part of NASA's Payloads and Research Investigations on the Surface of the Moon (PRISM) call for proposals. Draper will deliver the three investigations that will collectively weigh about 209 pounds (95 kilograms) in mass and include the Farside Seismic Suite (FSS), which aims to return NASA's first lunar seismic data from the far side of the Moon. This new data could help scientists better understand tectonic activity on this region of the Moon, reveal how often the lunar far side is impacted by small meteorites, and provide new information on the internal structure of the Moon. The instrument consists of the two most sensitive seismometers ever built for spaceflight. FSS is one of two PRISM selections. It is funded through NASA in collaboration with the Centre National d'Etudes Spatiales (CNES) - the French Space Agency - and is led by NASA's Jet Propulsion Laboratory in Southern California.

  • The Lunar Interior Temperature and Materials Suite (LITMS), also a PRISM selection, is a suite of two instruments: the Lunar Instrumentation for Thermal Exploration with Rapidity, a subsurface heat-flow probe and pneumatic drill; and the Lunar Telluric Currents, an electric field instrument. This payload suite aims to investigate the heat flow and subsurface electrical conductivity structure of the lunar interior in Schrödinger Basin. The combination of these measurements is a way to resolve thermal and compositional structure of the surface of the Moon. LITMS is funded by NASA and is led by the Southwest Research Institute.

  • The Lunar Surface ElectroMagnetics Experiment (LuSEE), which will make comprehensive measurements of electromagnetic phenomena on the surface of the Moon. LuSEE uses DC electric and magnetic field measurements to study the conditions that control the electrostatic potential of the lunar surface, which, in turn, plays a controlling role in dust transport. LuSEE also uses plasma wave measurements to characterize the lunar ionosphere and the interaction of the solar wind and magnetospheric plasma with the lunar surface and crustal magnetic fields. In addition, this payload will make sensitive radio frequency measurements to measure solar and planetary radio emissions. LuSEE is funded by NASA in collaboration with CNES, and is led by University of California, Berkeley's Space Science Laboratory.

Multiple commercial deliveries continue to be part of NASA's plans at the Moon. Future payloads delivered with CLPS could include more science experiments, including technology demonstrations that support for the agency's Artemis missions. Through Artemis, NASA will land the first woman and the first person of color on the Moon, paving the way for a long-term, sustainable lunar presence and serving as a steppingstone for future astronaut missions to Mars. Artemis I is scheduled to launch no earlier than Aug. 29,2022 with a subsequent test flight with crew scheduled to occur in 2024 in advance of NASA sending humans to the surface of the Moon no earlier than 2025.