Backlit by the setting Sun illuminating rainclouds, NASA’s Artemis-1 Space Launch System rocket sits on launch pad £9B at NASA’s Kennedy Space Centre, August 26th, 2022. Credit: ESA
If all continues on track, Monday, August 29th, 2022 will mark the start of America’s return to the Moon with crewed missions, just a few months shy of the 50th anniversary of the last crewed mission, Apollo 17 (December 7th-19th, 1972). It will come with the lift-off of the Artemis 1 mission, and the maiden flight of NASA’s new heavy lift launcher, the Space Launch System.
The mission will be – as most no doubtless know only too well – uncrewed, and the destination not the lunar surface, but cislunar space in what will be the most comprehensive test of the SLS rocket and the Orion Multi-Purpose Crew Vehicle (MPCV) ahead of crewed flights, which are due to commence with Artemis 2.
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The final countdown for the launch commenced on Saturday, August 27th at launch pad 39B within the Kennedy Space Centre, Florida, and providing no significant hitches occur, it is due to terminate at 12:33 UTC on August 29th with the ignition of the booster’s four RS-25 shuttle-derived motors and two massive solid rocket boosters (also derived from those used in the space shuttle programme). At the time of writing this piece, and despite a thunderstorm leading to a lighting strike at the launch facility on the evening of August 27th, everything was on course for the launch, and the forecast indicated a 70% likelihood that the weather at Cape Canaveral and downrange from the launch pad would be good for the launch.
Artemis 1 SLS in Pad 39B at Kennedy Space Centre, imaged from orbit by one of the Maxar constellation of Earth-imaging satellites on August 25th, 2022. Credit: Maxar Technologies
However, all things are not guaranteed, and the mission has a slim 2-hour launch window in which to get off the pad. Should the launch have to be scrubbed for any reason, further launch windows will be available on September 2nd (2 hours), and September 5th (90 minutes).
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Years ago in the uncrewed Exploration Flight Test-1, launched atop a Delta IV Heavy rocket – this will be the first flight of the vehicle outside of directly orbiting the Earth; however, for SLS, the mission could very much be make-or-break. The vehicle has been beset by issues throughout its development programme (many of which amounted to either unforced errors or came as a result of the entire Artemis programme being unduly accelerated by the Trump Administration to achieve a crewed landing by 2024 rather than 2028, as originally planned. As such any major or catastrophic failure could have major repercussions for NASA and the US government space programme.
SLS has been more than two decades in development. It started life in the early 2000s as the Ares V under NASA’s Constellation programme. Instigated by the then NASA administrator Michael Griffin, Ares 5 was to be the heavy-lift launch vehicle intended to help return humans to the Moon and (eventually / primarily) help pave the way to Mars, working alongside the smaller Ares 1 crew launch vehicle and what was then called the Orion Crew Exploration Vehicle (CEV). I say “primarily”, because Griffin was a strong advocate of human missions to Mars and the Ares programme was actually named for (and pretty much lifted from) the Mars Direct humans-to-Mars concept first proposed by Robert Zubrin and David Baker in 1990.
Despite enormous strides made in the development of Ares 1 (the first of which actually few in 2009) and the Orion CEV, the Obama administration opted to scrap the constellation programme on the grounds of cost. While Ares 1 went away in its entirety, Orion and Ares V underwent a redesign process, the former having its capabilities increased, whist Ares V went back to the drawing board to later emerge as the SLS.
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SLS development: on the left, the Block 1 with ICPS that will fly Artemis Mission 1-3. Centre left: the Black 1B EUS crew variant to flay Artemis 4-5(+). One the right, the proposed Block 1B and Block 2 cargo variants, that latter of which most closely resembles the Ares V Credit: NASA
The key differences between Ares V and SLS is the former was intended to be a heavy-lift cargo launcher, capable of delivering up to 168 tonnes to low-Earth orbit (LEO), up to 71 tonnes to lunar orbit and around 60 tonnes to Mars, with Ares 1 left to carry crews up to orbit. SLS, on the other hand is intended to be both a crewed and cargo launch vehicle, capable of delivering between 95 and 130 tonnes to LEO depending on the vehicle type, or some 46 tonnes to lunar orbit (Block 2 cargo) and 30-40 tonnes to Mars (Block 2 cargo).
The primary objectives for Artemis 1 are to prove the SLS launch system’s Block 1 launch capabilities; achieve a distant retrograde orbit (DRO) around the Moon, and make a safe return to Earth with a successful atmospheric re-entry and splashdown by the Orion MPCV capsule. The overall mission duration is expected to be some 42 days.
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This first flight – which will also mark the first use of the European-built Orion service module (Orion’s flight in 2014 didn’t require a service module) – is to be one of only three launches of the SLS Block 1 rocket. This uses what is called the Interim Cryogenic Propulsion Stage (ICPS) – essentially the upper stage of a Delta IV rocket. From Artemis 4 onwards, launches will use the more powerful Exploration Upper Stage (EUS) in what is termed the Block 1B SLS variant, and which will also be used in the Block 2 cargo variant (if this eventually flies).
The ICPS will be used to insert Orion into its trajectory to the Moon prior to separating from the capsule and its service module and performing one further crucial mission task. It will then pretty much parallel Orion to the Moon before using the latter’s gravity to slingshot itself away into a highly elliptical orbit of its own.
The flight of Artemis 1 as depicted in the mission’s Press Pack. The mission phase durations are variable to account for the different possible launch dates at the time the pack was published. Credit: NASA (click for full size)
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As well as being used to check-out SLS and Orion, Artemis 1 has a number of science goals, and the Orion MPCV is not the only payload for the mission. Shortly after Orion separates from the ICPS, the latter – in that other crucial aspect of the mission mentioned above – will deploy multiple cubesats on trajectories to the Moon. These will carry out an range of scientific tasks, including:
In addition, some of the cubesat missions will be technology demonstrators, including a further solar sail demonstrator; using very small automated vehicles to operate in close proximity to large vehicles and image them / look for potential damage; using small, low thrust gas motors for trajectory control in the space between Earth and the Moon.
Nor is that all; Orion itself will be carrying a number of experiments within the capsule, with a focus on gaining a better understanding of the radiation regime between the Earth and Moon and within cislunar space.
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The most evident of the onboard experiments is “Commander Moonikin Campos”, a mannequin dressed in the Orion Crew Survival System Suit. Sharing (OCSSS). Sharing same iconic orange colour as the survival suits used on shuttle missions, the OCSSS is a much more advanced version, designed to be worn continuously for periods of up to 6 days at a time (so whilst
To the Moon, whilst in lunar orbit and during a return to Earth), to offer enhanced radiation protection for the wearer whilst aboard Orion. To this end the mannequin – named for Apollo 13 electrical subsystems engineer Arturo Campos, who played a major role in bringing that crew back to Earth alive – is equipped with a plethora of radiation sensors to test the effectiveness of the suit.
“Commander Moonikin Campos”, the full-body mannequin flying on Artemis 1 as a part of a comprehensive suite of radiation science activities and to test the Orion Crew Survival System Suit. Credit: NASA
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The “Moonikin” is joined by two torso-only mannequins, referred to as the “phantoms” (and individually named Helga and Zohar). These are constructed from materials that mimic human bone and tissue, as well as organs unique to adult females, such as breast tissue and ovaries, which are susceptible to radiation damage. Each is equipped with over 6, 000 passive radiation detectors and 34 active detectors, and form the core element of the international Matroshka AstroRad Radiation Experiment (MARE), led by the German Aerospace Centre.
As well as being used to gather data on how radiation in space beyond Earth’s orbit affect human tissues, bone and organs, the phantoms will be used to determine how effective different materials and materials combinations used in the construction of the “AstroRad” vests they are wearing are at helping to mitigate the effects of radiation
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