Selasa, 31 Maret 2020

Hubble finds best evidence for elusive mid-sized black hole - Phys.org

Hubble finds best evidence for elusive mid-sized black hole
This illustration depicts a cosmic homicide in action. A wayward star is being shredded by the intense gravitational pull of a black hole that contains tens of thousands of solar masses. The stellar remains are forming an accretion disk around the black hole. Flares of X-ray light from the super-heated gas disk alerted astronomers to the black hole's location; otherwise it lurked unknown in the dark. The elusive object is classified as an intermediate mass black hole (IMBH), as it is much less massive than the monster black holes that dwell in the centers of galaxies. Therefore, IMBHs are mostly quiescent because they do not pull in as much material, and are hard to find. Hubble observations provide evidence that the IMBH dwells inside a dense star cluster. The cluster itself may be the stripped-down core of a dwarf galaxy. Credit: NASA, ESA and D. Player (STScI)

Astronomers have found the best evidence for the perpetrator of a cosmic homicide: a black hole of an elusive class known as "intermediate-mass," which betrayed its existence by tearing apart a wayward star that passed too close.

Weighing in at about 50,000 times the mass of our Sun, the black hole is smaller than the supermassive (at millions or billions of solar masses) that lie at the cores of large , but larger than stellar-mass black holes formed by the collapse of a massive star.

These so-called intermediate-mass black holes (IMBHs) are a long-sought "missing link" in black hole evolution. Though there have been a few other IMBH candidates, researchers consider these new observations the strongest evidence yet for mid-sized black holes in the universe.

It took the combined power of two X-ray observatories and the keen vision of NASA's Hubble Space Telescope to nail down the cosmic beast.

"Intermediate-mass black holes are very elusive objects, and so it is critical to carefully consider and rule out alternative explanations for each candidate. That is what Hubble has allowed us to do for our candidate," said Dacheng Lin of the University of New Hampshire, principal investigator of the study. The results are published on March 31, 2020, in The Astrophysical Journal Letters.

Astronomers have found the best evidence for a black hole of an elusive class known as "intermediate-mass," which betrayed its existence by tearing apart a wayward star that passed too close. This exciting discovery opens the door to the possibility of many more lurking undetected in the dark, waiting to be given away by a star passing too close. Credit: NASA's Goddard Space Flight Center

The story of the discovery reads like a Sherlock Holmes story, involving the meticulous step-by-step case-building necessary to catch the culprit.

Lin and his team used Hubble to follow up on leads from NASA's Chandra X-ray Observatory and ESA's (the European Space Agency) X-ray Multi-Mirror Mission (XMM-Newton). In 2006 these satellites detected a powerful flare of X-rays, but they could not determine whether it originated from inside or outside of our galaxy. Researchers attributed it to a star being torn apart after coming too close to a gravitationally powerful compact object, like a black hole.

Surprisingly, the X-ray source, named 3XMM J215022.4?055108, was not located in a galaxy's center, where massive black holes normally would reside. This raised hopes that an IMBH was the culprit, but first another possible source of the X-ray flare had to be ruled out: a neutron star in our own Milky Way galaxy, cooling off after being heated to a very high temperature. Neutron are the crushed remnants of an exploded star.

Hubble was pointed at the X-ray source to resolve its precise location. Deep, high-resolution imaging provides strong evidence that the X-rays emanated not from an isolated source in our galaxy, but instead in a distant, dense star cluster on the outskirts of another galaxy—just the type of place astronomers expected to find an IMBH. Previous Hubble research has shown that the mass of a black hole in the center of a galaxy is proportional to that host galaxy's central bulge. In other words, the more massive the galaxy, the more massive its black hole. Therefore, the star cluster that is home to 3XMM J215022.4?055108 may be the stripped-down core of a lower-mass dwarf galaxy that has been gravitationally and tidally disrupted by its close interactions with its current larger galaxy host.

Hubble finds best evidence for elusive mid-sized black hole
This Hubble Space Telescope image identified the location of an intermediate-mass black hole, weighing 50,000 times the mass of our Sun (making it much smaller than supermassive black holes found in the centers of galaxies). The black hole, named 3XMM J215022.4?055108, is indicated by the white circle. The elusive type of black hole was first identified in a burst of telltale X-rays emitted by hot gas from a star as it was captured and destroyed by the black hole. Hubble was needed to pinpoint the black hole's location in visible light. Hubble's deep, high-resolution imaging shows that the black hole resides inside a dense cluster of stars that is far beyond our Milky Way galaxy. The star cluster is in the vicinity of the galaxy at the center of the image. Much smaller-looking background galaxies appear sprinkled around the image, including a face-on spiral just above the central foreground galaxy. This photo was taken with Hubble's Advanced Camera for Surveys. Credit: NASA, ESA and D. Lin (University of New Hampshire)

IMBHs have been particularly difficult to find because they are smaller and less active than ; they do not have readily available sources of fuel, nor as strong a gravitational pull to draw stars and other cosmic material which would produce telltale X-ray glows. Astronomers essentially have to catch an IMBH red-handed in the act of gobbling up a star. Lin and his colleagues combed through the XMM-Newton data archive, searching hundreds of thousands of observations to find one IMBH candidate.

The X-ray glow from the shredded star allowed astronomers to estimate the black hole's mass of 50,000 solar masses. The mass of the IMBH was estimated based on both X-ray luminosity and the spectral shape. "This is much more reliable than using X-ray luminosity alone as typically done before for previous IMBH candidates," said Lin. "The reason why we can use the spectral fits to estimate the IMBH mass for our object is that its spectral evolution showed that it has been in the thermal spectral state, a state commonly seen and well understood in accreting stellar-mass black holes."

Hubble finds best evidence for elusive mid-size black hole
This artist's impression depicts a star being torn apart by an intermediate-mass black hole (IMBH), surrounded by an accretion disc. This thin, rotating disc of material consists of the leftovers of a star which was ripped apart by the tidal forces of the black hole. Credit: ESA/Hubble, M. Kornmesser

This object isn't the first to be considered a likely candidate for an intermediate-mass black hole. In 2009 Hubble teamed up with NASA's Swift observatory and ESA's XMM-Newton to identify what is interpreted as an IMBH, called HLX-1, located towards the edge of the galaxy ESO 243-49. It too is in the center of a young, massive cluster of blue stars that may be a stripped-down dwarf galaxy core. The X-rays come from a hot accretion disk around the black hole. "The main difference is that our object is tearing a star apart, providing strong evidence that it is a massive black hole, instead of a stellar-mass black hole as people often worry about for previous candidates including HLX-1," Lin said.

Finding this IMBH opens the door to the possibility of many more lurking undetected in the dark, waiting to be given away by a star passing too close. Lin plans to continue his meticulous detective work, using the methods his team has proved successful. Many questions remain to be answered. Does a supermassive black hole grow from an IMBH? How do IMBHs themselves form? Are dense star clusters their favored home?


Explore further

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Citation: Hubble finds best evidence for elusive mid-sized black hole (2020, March 31) retrieved 31 March 2020 from https://phys.org/news/2020-03-hubble-evidence-elusive-mid-sized-black.html

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2020-03-31 18:42:03Z
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NASA, Japan add 2 more astronauts to SpaceX's 1st operational Crew Dragon flight - Space.com

The passenger list for SpaceX's first operational crewed mission is now complete.

NASA astronaut Shannon Walker and Japanese spaceflyer Soichi Noguchi will fly to the International Space Station (ISS) aboard SpaceX's Crew Dragon spacecraft on that voyage, officials announced today (March 31). The duo will join NASA astronauts Michael Hopkins and Victor Glover Jr., bringing the total crew size up to four.

It's unclear when the quartet's mission will launch. It will follow SpaceX's first-ever crewed mission, a test flight called Demo-2 that will carry NASA astronauts Bob Behnken and Doug Hurley to and from the ISS. Demo-2 is scheduled to launch in mid- to late May

Video: Watch SpaceX's Demo-2 Crew Dragon spin in a critical prelaunch test

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NASA astronaut Shannon Walker looks at Earth from the International Space Station in November 2010.

NASA astronaut Shannon Walker looks at Earth from the International Space Station in November 2010. (Image credit: NASA)
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Japan Aerospace Exploration Agency astronaut Soichi Noguchi poses for a photo on the International Space Station in February 2010.

Japan Aerospace Exploration Agency astronaut Soichi Noguchi poses for a photo on the International Space Station in February 2010. (Image credit: NASA)
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NASA astronauts Victor Glover and Michael Hopkins will fly on the first SpaceX Dragon mission.

NASA astronauts Victor Glover and Michael Hopkins will fly on the first operational SpaceX Dragon mission. (Image credit: NASA)

Crew Dragon has already visited the orbiting lab once, in March 2019 on an uncrewed mission called Demo-1.

SpaceX holds a $2.6 billion NASA contract to fly six operational ISS missions with Crew Dragon and the company's Falcon 9 rocket. Boeing holds a similar deal, worth $4.2 billion, which the aerospace giant will fulfill using a capsule called the CST-100 Starliner.

But Starliner isn't yet ready to carry astronauts to orbit. The capsule suffered several software issues during its version of Demo-1, called Orbital Flight Test (OFT), this past December. Starliner ended up getting stranded in too low an orbit and came down to Earth without rendezvousing with the orbiting lab. 

NASA has not yet announced whether it will require Boeing to fly another version of OFT or allow the company to proceed directly to a crewed test flight.

Mike Wall is the author of "Out There" (Grand Central Publishing, 2018; illustrated by Karl Tate), a book about the search for alien life. Follow him on Twitter @michaeldwall. Follow us on Twitter @Spacedotcom or Facebook

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2020-03-31 18:41:38Z
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Two more astronauts join SpaceX's first crewed mission to the ISS - Engadget

NASA

Two more astronauts have been assigned to the first operational crewed flight of SpaceX's Crew Dragon on a mission to the International Space Station (ISS). NASA astronaut Shannon Walker and Noguchi Soichi, of the Japanese Aerospace Exploration Agency (JAXA), will join NASA astronauts Michael Hopkins and Victor Glover Jr., who were assigned to the mission in 2018. If all goes according to plan, this will be the first in a series of regular Crew Dragon flights to the ISS, NASA said in a press release.

Glover, Hopkins, Noguchi and Walker are expected to launch aboard a Crew Dragon on SpaceX's Falcon 9 rocket from the Kennedy Space Center later this year. They'll then spend six months at the ISS.

First, though, the Crew Dragon's Demo-2 test, scheduled for May, will have to be a success. That flight will launch humans (NASA astronauts Bob Behnken and Doug Hurley) to space from US soil for the first time since July 8th, 2011. It's also the last test SpaceX needs to pass before Crew Dragon is certified to conduct operational crew flights to and from the ISS.

SpaceX has successfully completed Crew Dragon engine tests and launch escape tests. It has had a few mishaps, but it appears to have overcome those. And it looks like the coronavirus pandemic, won't delay the Demo-2 test or first operational crewed mission to ISS.

All products recommended by Engadget are selected by our editorial team, independent of our parent company. Some of our stories include affiliate links. If you buy something through one of these links, we may earn an affiliate commission.

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2020-03-31 17:26:35Z
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Coronavirus could travel 27 feet, stay in air for hours: MIT researcher - New York Post

Social-distancing guidelines to stay 6 feet from others may be woefully inadequate, one scientist warns — saying the coronavirus can travel 27 feet and linger for hours.

MIT associate professor Lydia Bourouiba, who has researched the dynamics of coughs and sneezes for years, warns in newly published research that the current guidelines are based on outdated models from the 1930s.

Rather than the assumed safety of 6 feet, Bourouiba warns that “pathogen-bearing droplets of all sizes can travel 23 to 27 feet.”

Her research, published in the Journal of the American Medical Association, also warns that “droplets that settle along the trajectory can contaminate surfaces” — and “residues or droplet nuclei” may “stay suspended in the air for hours.”

She notes a 2020 report from China that showed that “virus particles could be found in the ventilation systems in hospital rooms of patients with COVID-19.”

Bourouiba fears that the current guidelines are “overly simplified” and “may limit the effectiveness of the proposed interventions” against the deadly pandemic.

She says it is particularly urgent for health care workers who, she argues in her report, face an “underappreciated potential exposure range” while treating the sick and dying.

People wearing face masks in Venice, Italy
People wearing face masks in Venice, ItalyREUTERS/Manuel Silvestri

“There’s an urgency in revising the guidelines currently being given by the [World Health Organization] and the [Centers for Disease Control and Prevention] on the needs for protective equipment, particularly for the frontline health care workers,” Bourouiba told USA Today.

The World Health Organization — which suggests 3 feet is enough to remain safe — told USA Today it “welcomed” studies.

“WHO carefully monitors emerging evidence about this critical topic and will update this scientific brief as more information becomes available,” WHO said in a statement to the paper.

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2020-03-31 14:15:19Z
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Hubble telescope discovers Galaxy-ripping quasar tsunamis in space - The Next Web

Quasar tsunamis discovered by astronomers using the Hubble Space Telescope erupt in the most energetic outflows of material ever seen. This outpouring of energy wrecks havoc with galaxies in which these enigmatic objects reside, altering the evolution of these families of stars.

Quasars are energetic cores of galaxies, composed of supermassive black holes fed by vast quantities of gas, stars, and planets. These bodies are capable of emitting a thousand times as much energy as the entire galaxies which host the bodies.

Quasar winds push vast amounts of material away from the core of an energetic supermassive black hole at the core of a distant galaxy, in this artist’s conception. Image credit: NASA

These quasar winds push material away from the center of the galaxy, accelerating gas and dust at speeds approaching a few percent of the speed of light. The pressure pushes aside material which could otherwise collapse to form new stars, making stellar formation more difficult, reducing the number of new stars formed. This new study shows this process is more widespread than previously believed, altering star formation throughout entire galaxies.

“These outflows are crucial for the understanding of galaxies’ formation. They are pushing hundreds of solar masses of material each year. The amount of mechanical energy that these outflows carry is up to several hundreds of times higher than the luminosity of the entire Milky Way galaxy,” Nahum Arav of Virginia Tech stated.

An image of the quasar RX J1131, taken in X-ray and optical wavelengths. Image credit: X-Ray: NASA/CXC/University of Michigan/R.C. Reis et. al. Optical: NASA/STScI

As the outflow blasts into interstellar material, it heats the medium to millions of degrees, setting the galaxy alight in X-rays. Energy pours out through the galaxy, producing a fireworks show for anyone capable of seeing it.

“You’ll get lots of radiation first in X-rays and gamma rays, and afterwards it will percolate to visible and infrared light. You’d get a huge light show, like Christmas trees all over the galaxy,” Arav explained.

Galaxies get blown away

I saw the whole universe laid out before me, a vast shining machine of indescribable beauty and complexity. Its design was too intricate for me to understand, and I knew I could never begin to grasp more than the smallest idea of its purpose. But I sensed that every part of it, from quark to quasar, was unique and — in some mysterious way — significant. — R. J. Anderson

This study could explain several mysteries in astronomy and cosmology, including why the size of galaxies is related to the mass of the supermassive black holes at their centers. It may also explain why so few massive galaxies are seen throughout the Cosmos.

“Both theoreticians and observers have known for decades that there is some physical process that shuts off star formation in massive galaxies, but the nature of that process has been a mystery. Putting the observed outflows into our simulations solves these outstanding problems in galactic evolution,” said Jeremiah Ostriker, a cosmologist at Columbia and Princeton universities not involved with this current study. Below is a 3D animation video of a quasar by the European Southern Observatory (ESO).

Outflows from quasars were studied by astronomers using the Cosmic Origins Spectrograph (COS) attached to the Hubble Space Telescope, the only instrument capable of carrying out the needed observations in ultraviolet wavelengths.

A second outflow measured by researchers on this study increased its speed from 69 million kilometers (43 million miles) per hour to 74 million KPH (46 million MPH) over a period of three years. Models suggest that such outflows should have been common in the early Universe. Researchers on this study believe this material will continue to accelerate for the foreseeable future.

Analysis of the data was published in the journal Astrophysical Journal Supplements.

This article was originally published on The Cosmic Companion by James Maynard, an astronomy journalist, fan of coffee, sci-fi, movies, and creativity. Maynard has been writing about space since he was 10, but he’s “still not Carl Sagan.” The Cosmic Companion’s mailing list/podcast. You can read this original piece here.

Read next: Scientists are working on new ways to recycle chemicals from electronic waste

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2020-03-31 12:10:30Z
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On Mars, deep-water diversity has stood the test of time, meteorites show - Space.com

The water buried deep within Mars likely came from at least two very different sources long ago, a new study suggests.

"These two different sources of water in Mars' interior might be telling us something about the kinds of objects that were available to coalesce into the inner, rocky planets," Jessica Barnes, an assistant professor of planetary sciences in the University of Arizona Lunar and Planetary Laboratory, said in a statement.

"This context is also important for understanding the past habitability and astrobiology of Mars," Barnes added.

Related: What is Mars made of?

The famed Mars meteorite ALH84001.  (Image credit: NASA)

Barnes and her colleagues analyzed two Mars meteorites: Northwest Africa (NWA) 7034, also known as Black Beauty, and Allan Hills 84001 (ALH84001), probably the most famous Red Planet rock of all time. In the mid-1990s, a team of researchers announced that they'd found compelling evidence of Martian life in ALH84001. Most other scientists were not convinced, and the claim remains controversial, and debated, to this day. 

Barnes and her team determined the hydrogen-isotope compositions of Black Beauty and ALH84001, which interacted with water in the Martian crust about 1.5 billion years ago and 3.9 billion years ago, respectively. 

Isotopes are versions of an element that have different numbers of neutrons in their atomic nuclei. For example, the hydrogen in "normal" water has no neutrons in its nucleus, whereas the hydrogen in deuterium, or "heavy water," has one.

Studies of Mars meteorites over the years have found a wide variety of hydrogen-isotope ratios. But, in  the new study, which was published online Monday (March 30) in the journal Nature Geoscience, Barnes and her team found that Black Beauty and ALH84001 have very similar amounts of normal versus heavy hydrogen.

That ratio is roughly the same as that observed for much younger rocks, suggesting that not much has changed, hydrogen-isotope wise, for the past 4r billion years or so on Mars. In addition, the isotope ratio is about halfway between that seen in crustal rocks here on Earth and the ratio observed in the Martian atmosphere, which has a lot more heavy hydrogen.

The Martian atmosphere is so "fractionated" because charged particles from the sun have preferentially blown the lighter normal hydrogen into space, scientists say.

"We thought, OK, this is interesting, but also kind of weird," Barnes said of the new results. "How do we explain this dichotomy where the Martian atmosphere is being fractionated, but the crust is basically staying the same over geological time?"

Researchers have long thought that Mars' mantle — the thick rock layer beneath the thin crust — sports a similar hydrogen-isotope ratio to that of Earth. So, the variability in isotope ratios seen in Mars meteorites was chalked up to terrestrial contamination or alteration by the Red Planet's atmosphere as the rocks, blasted free by powerful impacts, barreled outward toward space, Barnes said. (Crustal rocks should be similar to mantle rocks, after all; the crust is made of material from the interior that made it to the surface, cooled and solidified.)

But the presumed mantle similarities between Mars and Earth are inferred from one study of a meteorite thought to originate in the Red Planet's mantle, the researchers said. And it may be time for a rethink.

"Martian meteorites basically plot all over the place, and so trying to figure out what these samples are actually telling us about water in the mantle of Mars has historically been a challenge," Barnes said. "The fact that our data for the crust was so different prompted us to go back through the scientific literature and scrutinize the data." 

This analysis revealed that two different types of Martian volcanic rocks, enriched shergottites and depleted shergottites, have different hydrogen-isotope ratios. These rocks probably represent different source material, the researchers said — different reservoirs of water in the Martian interior.

"Consequently, these features may have been inherited from the primary building blocks that constructed Mars, implying that the Martian mantle has almost always been heterogeneous because it was poorly mixed during accretion, differentiation and its subsequent thermochemical evolution," the researchers wrote in the new study.

If this is true, then, unlike Earth and the moon, Mars probably did not feature a global ocean of liquid rock shortly after its birth. A global magma ocean would have mixed everything together, erasing the distinct isotope signatures, the researchers said.

Mike Wall is the author of "Out There" (Grand Central Publishing, 2018; illustrated by Karl Tate), a book about the search for alien life. Follow him on Twitter @michaeldwall. Follow us on Twitter @Spacedotcom or Facebook

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2020-03-31 11:33:00Z
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Senin, 30 Maret 2020

NASA's Mars Rover Is Bringing 10.9 Million Names to the Red Planet - IGN - IGN

NASA's Mars Perseverance rover will be carrying more than 10.9 million names when it launches from the Cape Canaveral Air Force Station this summer on its voyage towards Jezero Crater, where it's expected to land on February 18, 2021. NASA confirmed on Thursday that 10,932,295 monikers and 155 essays had been etched onto a microchip aboard the rover in response to the 'Send Your Name to Mars' campaign, which invited people around the world to submit names and articles to ride aboard the agency's next rover to the Red Planet.

The successful entries were stencilled by electron beam onto three fingernail-sized silicon chips, which were then attached to an aluminium plate affixed to the centre of the rover's aft crossbeam at the Kennedy Space Center in Florida on March 16, 2020.

The chips were joined on the plate by a graphic of the Earth, Sun and Mars. "While commemorating the rover that connects the two worlds, the simple illustration also pays tribute to the elegant line art of the plaques aboard the Pioneer spacecraft and golden records carried by Voyagers 1 and 2," NASA said in a statement.

According to NASA, the coronavirus (COVID-19) pandemic has not yet affected the launch schedule of the Mars Perseverance rover. In fact, the team recently started to reconfigure the rover to ride atop the Atlas V rocket ahead of its launch from the facility near to Kennedy Space Center on July 17, 2020.

Upon reaching the Red Planet, the Perseverance rover will reportedly search for signs of past microbial life on the planet, characterize its climate and geology, and collect samples of the rocky terrain to bring back to Earth in an effort to pave the way for human exploration of Mars in the future.

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For other exciting space discoveries and developments, check out the new method MIT engineers have identified to deflect asteroids, read about the mini-moon that was found to be orbiting Earth, and find out more about the sad fate that an asteroid belt may face in six billion years.Adele Ankers is a Freelance Entertainment Journalist. You can reach her on Twitter.

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2020-03-30 17:12:53Z
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NASA officials outline plans for building a Lunar Gateway in the mid-2020s - Ars Technica

Artist's concept of initial configuration of the Lunar Gateway.
Enlarge / Artist's concept of initial configuration of the Lunar Gateway.
NASA

The concept of NASA's Lunar Gateway—a small outpost to be built in a halo orbit around the Moon—is about five years old.

Although a lunar space station might serve many useful purposes, the concept came about for one basic reason. Due to limitations in the upper stage of NASA's Space Launch System rocket and an under-powered propulsion system in the Orion spacecraft, these vehicles do not have enough performance to get astronauts into low-lunar orbit, and then back out of it again for a return to Earth. Thus, NASA came up with a waypoint farther from the Moon and not so deep within its gravity well.

For more than a year, as NASA has developed its Artemis plan to return humans to the Moon by 2024, the space agency has positioned Gateway as the "Command Module" where it would aggregate components of a Human Landing System and from where astronauts would descend down to the surface of the Moon.

But in recent weeks it has become clear that NASA's chief of human spaceflight, Doug Loverro, prefers to build a complete lunar lander on the ground and launch it along with astronauts into lunar orbit. This architecture, reminiscent of the Apollo Program, would bypass the Gateway for the first lunar mission. (Loverro is expected to detail these plans publicly in mid-April, according to sources.) If NASA is going to bypass the Gateway for its first lunar mission, what is the purpose of the Gateway? And with opposition from the White House Office of Management and Budget, is NASA still planning to build it?

Seemingly in response to this question, NASA announced Friday that it has selected SpaceX to deliver supplies to the Lunar Gateway in the mid-2020s. The company will do so with a new version of its Dragon spacecraft, XL, launching on the Falcon Heavy rocket. This contract suggests NASA is serious about eventually building the Gateway.

To make sense of all this, Ars interviewed Dan Hartman, Gateway program manager at NASA’s Johnson Space Center in Houston, and Mark Wiese, Deep Space Logistics manager at NASA’s Kennedy Space Center in Florida. A version of the interview, edited for clarity, follows.

Ars: Can you walk me through the evolution of Gateway and how it fits into NASA's plans now?

Dan Hartman: The Gateway is basically a small space station, an aggregation point to enable sustained lunar missions to the surface of the Moon, with the support of the Orion crew. And so with our configuration today, we have the Power Propulsion Element (PPE), which we have on contract with Maxar. Then there's the HALO, which is the Habitation and Logistics Outpost, being built by Northrop Grumman. Both of those are proceeding. I think we will work through both the System Design Reviews on each one of those, and we're heading toward Preliminary Design Review probably late this year. So those are progressing well.

The Power and Propulsion Element of NASA's Gateway is a high-power, 50-kilowatt solar electric propulsion spacecraft.
Enlarge / The Power and Propulsion Element of NASA's Gateway is a high-power, 50-kilowatt solar electric propulsion spacecraft.
NASA

Ars: And beyond this?

Hartman: We have the International-HAB, which we call the I-HAB, which is kind of a combination with ESA in the lead but with JAXA supplying components for that. So that is being worked on. ESA just completed a systems requirements review in the December time period, and so they're heading towards their next phase, which would be System Definition Review. And the Canadians are providing the robotic devices, which is certainly the bigger arm, and then they'll have some dexterous capability as well. They are in the final throes of going through their government, and I expect them to put a contract in place here shortly with a vendor to build the arm.

Ars: There's also the logistics element that just came out.

Hartman: We've had that in the procurement world for about a year, and that's kind of the last component of the Gateway in and of itself. And so obviously, that allows us to bring all the crew supplies up and most likely bring EVA suits up, the air, and water for the crew. And then we allocated a pretty hefty amount of research to be done within that logistics module as well.

Ars: Anything else?

Hartman: One element that we are still kind of under a lot of discussion on is the airlock, and we've reached out to Roscosmos for that. We're still working with them and so that's probably the one thing that we don't have squared away right now, as far as an agreement.

Ars: Do you have a timeline for when you'd like to get the first two pieces of the Gateway, the PPE and HALO on orbit, and maybe the first logistics mission?

Hartman: I am working toward having the PPE and HALO in place in the mid-2024 time period.

Ars: Okay. So would the first logistics mission go up then or do you think later?

Hartman: This is where it kind of gets into the question of, what is our 2024 plan? It's kind of still in the works.

Ars: You could say that. So you're waiting for Loverro's final architecture for the Artemis Program?

Hartman: Yeah, whether we go with Gateway, or direct to the Moon's surface, right? I can tell you that with the logistics mission, we're planning to have the flexibility to do it in the 2024 time period. You know how we kind of turn these logistics contracts on. You give the authority to proceed and then you start your milestones. We have time before we actually have to put authority to proceed on the very first mission. But we're going to start some early design work immediately. We've got some task orders almost ready to go with SpaceX now.

Ars: It seems to me that Dragon has some capability to really add some volume to Gateway. Can you talk a little bit about its capabilities?

Wiese: We went back and looked at some of the lessons learned from Commercial Resupply Services (CRS), and the early missions of CRS really didn't have the capability within the modules to support research. If you look at SpaceX's first two or three missions and look at where we are on SpaceX's 20th mission, the capabilities that Dragon offers for research are significantly improved, and so we took that into account.

Hartman: We're going to put payloads on the inside, and we've got quite a bit of power allocated from the Dragon XL for that. We've got upmass allocated for payloads inside and then we can also fly payloads on the outside with power and tied into their communication systems so we can get some research back down, real time on the way to the Moon, and while attached at the Moon. And then quite honestly, we don't need the logistics mission up there for six months or a year just to support a lunar mission. But we wanted to take advantage of the extra volume, the extra research accommodations, where we could keep it attached, and we could run science. Dragon also has got the automated rendezvous and docking system that they will be using on their CRS-2 vehicles, very similar to their Crew Dragon. And so, the docking system, you can come and go. We were planning to do that remotely without crew in there. And so, we think we're set up for a really good platform to conduct research for the long haul.

Ars: How is this bringing value to NASA?

Wiese: We're buying a service, right? So this is a commercial services contract built off of what we do at the NASA launch services contract at Kennedy Space Center, and what CRS has done over the years. And we really tried to get those requirements right so that we weren't driving tons of new development, right? We want to make this the best value for the government. And what you see in Dragon XL is SpaceX has taken all of the investments that they've been able to capitalize on over the years on CRS and commercial crew. And they're taking a Dragon 2 and they're expanding on that capability. They're making it more voluminous.

Ars: How are they adding volume?

Wiese: You see in the artist's rendition they put out there, they don't have to have that aeroshell, like they will when they launch Dragon on top of a single stick Falcon 9 to go to the International Space Station. Dragon XL will be inside the fairing, so they're taking advantage of that volume that they haven't had, and the fact that Dragon doesn't have to withstand the dynamic loads. Going forward we're really just expanding Dragon to be that Dragon XL capability. We're really leveraging the systems that we are using on Dragon 2 today for Crew and CRS.

Ars: In terms of internal cubic meter capacity, or whatever, is it double, or like 50 percent more than a cargo or Crew Dragon?

Illustration of the SpaceX Dragon XL as it is deployed from the Falcon Heavy's second stage in high Earth orbit on its way to the Gateway in lunar orbit.
Enlarge / Illustration of the SpaceX Dragon XL as it is deployed from the Falcon Heavy's second stage in high Earth orbit on its way to the Gateway in lunar orbit.
SpaceX

Wiese: Right now we're not really disclosing too much of the details.

Ars: I know Doug Loverro has talked about the importance of integrating stuff on the ground, as opposed to in space, when it comes to the Human Landing System. Have you looked at doing that with Gateway at all, like putting pieces together on the ground and maybe launching them together?

Hartman: Yeah. Loverro has stepped back and looked at the overall Artemis architecture. He's probably a few weeks from rolling all that out. So we have looked at a lot of options, I'll say, to reduce integration risks for the Gateway, and to enhance mission assurance, at the same cost. So some of those kinds of things that you mentioned are in the trade space, and I would say no decisions have been made yet.

Ars: I'm hearing that NASA headquarters is probably going to announce the new plan in mid-April.

Hartman: Yeah. So I think that they will make some decisions with the administration, and then they'll roll out all those plans. So nothing's changed from our baseline officially, I'll put it that way.

Ars: Finally, can you just maybe give me the 30-second elevator speech on why Gateway is a critical element for a sustainable return to the moon?

Hartman: Well, I think there's several things. Without question, with the Gateway, you can extend the duration of the mission, right? When you go single, I'll say direct mission to the Moon, you're limited on the supplies, either with the Lander or with Orion. With the Gateway, with just with one logistics module, we think we can extend to about twice the mission duration, so 30 days to 60 days. Obviously the more crew time you have in lunar orbit helps us with research in the human aspects of living in deep space. The more duration we have, certainly that'll help us buy down significant risk with the extreme environments that we're going to be subjecting our crews to. Because we've got to go figure out how to operate in deep space.

Obviously we'll demonstrate new hardware and offer that sustainable flexible path for our Lunar Lander system. With the Gateway, the thinking is we'll be able to reuse the ascent modules potentially multiple times. And again, if we can get mission duration beyond the 30 days, it's going to offer us some additional environmental capabilities. We think it's a tremendous risk buy down asset, not only to explore the Moon sustainably, but to prove out some things that we need to do to get to Mars.

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2020-03-30 15:58:00Z
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Meteorites reveal that Martian water came from different sources - CNN

Mars was likely a warm, wet planet billions of years ago before its atmosphere was slowly stripped down and whisked out into space -- leaving behind the thin atmosphere and frozen desert planet we know today.
But how did the water get to Mars in the first place? To understand that, researchers have to look at the layers of Mars. Like any planet, it has a core, mantle, crust and atmosphere.
Fortuitously, Martian meteorites contain samples of the planet's crust. The crust is also where the largest reservoir is estimated to be on Mars, containing 35% of the total estimated water beneath the surface.
Our eyes on Mars: How Curiosity sees the Red Planet
The two well-known meteorites are known as Black Beauty and Allan Hills, and researchers studied thin slices of them to look into Mars' past, including how the planet formed and when water entered into the equation.
Their study published Monday in the journal Nature Geoscience.
The Black Beauty meteorite, which is estimated to be two million years old, formed and broke off of the planet when a massive impact hit Mars and laminated pieces of Martian crust together. This effectively also captured material from different points in the Martian timeline.
Could life have existed on a warm, wet Mars? Ancient Earth crater may explain how
"This allowed us to form an idea of what Mars' crust looked like over several billions of years," said Jessica Barnes, study author and assistant professor of planetary sciences in the University of Arizona Lunar and Planetary Laboratory.
When looking at the two meteorites, the researchers conducted a chemical analysis seeking out two types of hydrogen isotopes. Isotopes are the atoms that make up chemical elements.
They were specifically looking for "light hydrogen" and "heavy hydrogen," because the ratio of these two isotopes can be used to understand the origin of water traces found in rocks.
Mars, already largely desert, is losing water quicker than expected, study says
For example, on Earth, scientists can study rocks and determine a similar ratio of hydrogen isotopes in all of them that translates to ocean water.
But those values differ wildly in Martian meteorites, and none of them have been similar, the researchers said.
The Black Beauty and Allan Hills meteorites suggested two different sources of water on Mars, based on their isotopes.
"These two different sources of water in Mars' interior might be telling us something about the kinds of objects that were available to coalesce into the inner, rocky planets," Barnes said. "This context is also important for understanding the past habitability and astrobiology of Mars."
Could Earth be a 'waterworld'? It may have started that way
So how does that happen? It's all about the ingredients that made Mars in the first place.
Planetesimals were the building blocks of the planets that form our solar system today. They're made up of bits of gas and dust leftover from the formation of our sun. Over time, they grew in size and collided with one another, forming planets.
Water found an inch beneath the Martian surface could help future astronauts
In the case of Mars, two different planetesimals with very different water content could have collided and never fully mixed, the researchers said.
This is very different than the previous theory about the formation of Mars, which suggested it was more like Earth. That theory stemmed from another Martian meteorite, but this one came from the planet's mantle. The mantle is the rocky subsurface layer between the core and crust.
"The prevailing hypothesis before we started this work was that the interior of Mars was more Earth-like," Barnes said. "So the variability in hydrogen isotope ratios within Martian samples was due to either terrestrial contamination or atmospheric implantation as it made its way off Mars."
Marsquakes: NASA mission discovers that Mars is seismically active, among other surprises
Earth had a global magma ocean that helped create its core and atmosphere billions of years ago, as well as the plate tectonics that shaped the continents. Now, researchers believe that Mars formed differently than Earth.
The meteorites, combined with other previous data about Mars, including observations by the Curiosity rover, revealed three things.
In the Martian meteorites, the crust remained much the same over time. The isotopes suggested the atmospheric changes they knew happened over time on Mars. And the crust samples were wildly different from the mantle below it.
The Curiosity rover detects oxygen behaving strangely on Mars
"Martian meteorites basically plot all over the place, and so trying to figure out what these samples are actually telling us about water in the mantle of Mars has historically been a challenge," Barnes said. "The fact that our data for the crust was so different prompted us to go back through the scientific literature and scrutinize the data."
During that analysis, the researchers discovered two different types of Martian volcanic rocks called shergottites. Some were enriched, and some were depleted, meaning they contained evidence of water bearing different hydrogen isotopes.
Together, they match the strange story told by the Martian meteorites and Mars' different water sources.
"It turns out that if you mix different proportions of hydrogen from these two kinds of shergottites, you can get the crustal value," Barnes said.

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2020-03-30 15:04:00Z
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A place that makes you ask the questions that really matter - BBC News

Visitors to Antarctica are often awed and humbled by its size, and its extreme climate. But it also caused the BBC's Justin Rowlatt to reflect on the human ability to solve problems together - and to feel hope for the future.

We take off from a glacier near McMurdo, the main US research centre in Antarctica, heading for the middle of the West Antarctic Ice Sheet.

After an hour all you can see out of the small circular window is ice stretching to the far horizon.

An hour later, the same.

The following hour, no change…

You get the picture.

We finally land after three-and-a-half hours in the air.

The nearest human habitation - the US scientific base we flew from - is now as far from us as Moscow is from London… and there is only ice in between.

The sheer size of the ice sheet makes it almost impossible for visitors not to reflect on the insignificance of an individual human being.

"It makes you feel so small," is what everyone says.

But dig a bit deeper and you discover most people don't mean they feel a sense of threat; Antarctica doesn't belittle you.

In fact, lots of people find there is something reassuring about being in the presence of something so much bigger and stronger than they are.

Gabrielle Walker, the author of my favourite book about Antarctica, writes about this.

We all like to think we are important, she says. But that feeling brings a certain responsibility: if you are important you've got something to prove.

"Here you have nothing to prove because you can only submit," says Gabrielle.

You can't feel important in this vast place.

And if you aren't important then things become a lot simpler.

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Antarctica gives you the freedom to ask yourself the questions that really matter, she says.

What is important to me?

What should I be doing with my life?

Who do I really miss while I am here and why?

And who misses me?

Lots of people are probably asking similar questions as they hunker down at home in the face of the threat of the coronavirus.

But, when I finally get to the front of the enormous glacier that the scientists I'm accompanying are here to study, that sense of insignificance dissolves.

It feels like I've reached the front line of climate change: the place where the equilibrium that has held our world in balance for tens of thousands of years is beginning to slip and crash.

It is impossible to mistake the epic forces at work here.

It is like a scream of anguish caught in the single frame of a photograph.

The glacier is being torn and shattered.

In places the ice is almost a mile high and is collapsing into the sea at a rate of three miles a year along a front more than 100 miles long… and the whole process is accelerating.

Needless to say, this acceleration - which is affecting the entire West Antarctic Ice Sheet - is the result of the global warming gases our lifestyles produce.

It explodes the impression that the ice here is overwhelming.

In fact, the opposite is true, we are overwhelming the ice.

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I am surprised how moved I am by what I've seen.

A colleague interviews me for a programme we are making and I burst into tears.

It takes me days to process my emotions.

I think about the chain of people who have made this expedition possible: the pilots and aircrew, the people back at the research station who sift the rubbish and cook the meals, the men and women who drive the trucks and groom the ice runways.

We wouldn't be here without them.

Or the people who agreed the project and signed the cheques.

Or the people who paid their taxes, raising the money in the first place.

Or, for that matter, my wife looking after the kids back home.

Our small team has only been able reach the front of this glacier because of a huge human enterprise.

It is only by coming together as a community that we can reach remote places like this and only by coming to places like this can we can understand what is happening to our world and what it is likely to mean for us all.

And, of course, it is only by coming together as a community that we can cut the emissions causing global warming.

I'm flying back to the research station at McMurdo when I feel a stir of something I haven't felt for a while - hope.

It is sometimes claimed that greed, violence and conflict are the key features of humanity, but that is wrong.

The defining human characteristic throughout history is actually our ability to co-operate.

You may also be interested in:

READ: What is climate change? A really simple guide

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2020-03-30 13:31:48Z
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