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June 23, 2014 · 4:47 pm

NASA’s futuristic spacesuits made for Mars walkers

Space.com

By Mike Wall, Senior Writer

Published June 18, 2014

NASASpacesuit1.jpg

Nasa

NASA is thinking hard about what the first boots to set foot on Mars will look like.

Getting astronauts to the Red Planet is the chief long-term goal of the agency’s human spaceflight program, so NASA is developing many technologies to help make that happen. For instance, there’s the Space Launch System mega-rocket, the Orion crew capsule and a new line of prototype spacesuits called the Z-series.

 “We are heading for Mars; that’s what is the end goal right now for the suit,” said Phil Stampinato of ILC Dover, the Delaware-based company that won NASA contracts to design and build the first two iterations of the Z-series, the Z-1 and Z-2. [NASA’s Z-2 Spacesuit in Pictures: Futuristic Astronaut Suit Design Photos]

“So, everything that’s done to develop this suit is headed for a Mars mission, even if there is an asteroid mission or a lunar mission prior to that,” Stampinato said during a presentation with NASA’s Future In-Space Operations working group on June 4.

A new type of suit

NASA astronauts aboard the International Space Station currently don a bulky suit called the Extravehicular Mobility Unit (EMU) whenever they need to venture outside the orbiting lab. The EMU has performed well for decades, but its utility is pretty much limited to operations in microgravity.

“It’s a very, very poor walking suit,” NASA spacesuit engineer Amy Ross said in a video released by the space agency.

The Z-series suits, on the other hand, are designed to be more flexible, with a wider variety of uses — including ambling about on Mars and other planetary bodies.

“We’re trying to design [the new suit] to accommodate both improved microgravity EVA [extravehicular activity] capability as well as surface capability,” Ross said.

For example, new bearings in the Z-1’s shoulder, waist, hip, upper leg and ankles allow for increased leg movement and fine foot placement, she said.

The EMU has upper and lower portions, which wearers don separately and then link up at the waist. But astronauts crawl into the Z-series suits from the back, through a hatch.

“We think it’s less prone to [causing] injury, especially shoulder injury,” Ross said of the new entry design. “And then also, it provides support for some other exploration technology, like a suitport.”

Suitports are an alternative to airlocks, potentially allowing astronauts to enter and exit habitat modules, rovers and other structures quickly and easily without bringing dust and other contaminants inside.

Suitport interface plates are being developed right along with the Z-series spacesuits, in case NASA decides to go with this technology for its manned Mars missions, Stampinato said.

“They’re going to be suitport-compatible,” he said.

A ways to go

ILC Dover delivered the Z-1 spacesuit to NASA in 2011, and it was named one of the best inventions of the year by Time magazine in 2012.

The Z-2, which should be ready for testing by November, is different from its predecessor in several key ways. For example, the Z-1’s upper torso was soft, whereas the Z-2’s is made of a hard composite, improving the suit’s durability. The Z-2’s boots are also closer to flight-ready, while the materials used for the newer suit are compatible with the conditions that exist in the vacuum of space, NASA officials said.

But that doesn’t mean that astronauts will wear the Z-2 — or its successor, the Z-3, which is expected to be built by 2018 or so — to explore the surface of Mars. The suits are prototypes — testbeds that should help bring a bona fide Red Planet spacesuit closer to reality.

“Each iteration of the Z-series will advance new technologies that one day will be used in a suit worn by the first humans to step foot on the Red Planet,” space agency officials wrote about the Z-2 in April, when announcing the results of a public competition to choose a design for the suit’s protective outer layer. (The futuristic-looking “Technology” option won, giving the Z-2 a “Tron”-like new look.)

While spacesuit designers are focused on the future — NASA aims to get people to the vicinity of Mars by the mid-2030s — they’re also looking to the past for inspiration. The Apollo astronauts, after all, accumulated many hours of experience on the surface of another world during six landed moon missions from 1969 to 1972.

“We’ve read through all the debrief comments; we’ve talked to the crewmembers multiple times,” Ross said. “We are very aware of what they did like, didn’t like, were capable of, weren’t capable of. And so, we do take that into consideration.”

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March 2, 2014 · 11:32 am

Name a Martian crater for just $5 bucks

Name a Martian crater for just $5 bucks

By Mike Wall

Published February 28, 2014

  • Mars Landscape

    NASA’s 1997 Pathfinder mission to Mars returned this stunning image of the planet’s rocky red landscape. (NASA/JPL)

  • new impact crater on Mars.jpg

    A dramatic, fresh impact crater on Mars dominates this image taken by the High Resolution Imaging Science Experiment (HiRISE) camera on NASA’s Mars Reconnaissance Orbiter on Nov. 19, 2013. (NASA/JPL-Caltech/Univ. of Arizona)

Naming landmarks on Mars isn’t just for scientists and rover drivers anymore.

Starting Wednesday, anybody with an Internet connection and a few dollars to spare can give a moniker to one of the Red Planet’s 500,000 or so unnamed craters, as part of a mapping project run by the space-funding company Uwingu.

“This is the first people’s map of Mars, where anybody can play,” said Uwingu CEO Alan Stern, a former NASA science chief who also heads the space agency’s New Horizons mission to Pluto. “It’s a very social thing.” [7 Biggest Mysteries of Mars]

Putting your stamp on Mars isn’t free. Naming the smallest craters will set you back $5, with prices going up as crater size increases. Uwingu will use the money raised by the project — which could be more than $10 million, if people name every available Martian crater — to fund grants in space exploration, research and education, which is the company’s stated chief purpose.

“We’re developing this grant fund — the Uwingu fund — for people who’ve been hit by sequestration,” Stern told Space.com. “There’s nothing like it right now. They have no place to go; it’s either NASA, NSF [the National Science Foundation] or you’re out of luck.”

Stern hopes the effort will succeed in naming all of Mars’ cataloged craters by the end of 2014, helping to fill in a lot of gaps in Red Planet cartography. (The company aims to solicit names for other Red Planet features, such as canyons and mountains, in the future.)

The project could also provide a sort of cultural snapshot, revealing what people are thinking about and what’s important to them at this moment, he added.

“It’s like taking a picture of ourselves,” Stern said. “What will people put? Will there be a lot of craters named for politicians? For artists, for relatives, for places on Earth? Sports teams?”

The crater-naming project is not a contest, working instead on a first-come, first-served basis. Names will be accepted immediately and will remain approved unless Uwingu officials later determine them to be profane or otherwise offensive.

Stern stressed that Uwingu (whose name means “sky” in Swahili) is not trying to supplant other Mars maps, such as the one generated by the United States Geological Survey. The 15,000 Red Planet features whose names have already been approved by the International Astronomical Union (IAU) will be grandfathered into Uwingu’s base map, officials said.

The Uwingu project also will not seek approval from the IAU, which has traditionally authorized “official” names for celestial bodies and their features. Rather, the crater monikers will be informal or popular names, Stern said. (Unofficial names can still come into wide usage: “The Milky Way,” for example, is not IAU-sanctioned.)

This is not Uwingu’s first foray into celestial-object naming. The company has also raised funds by asking the public to choose monikers for the thousands of exoplanets and exoplanet candidates being discovered around the galaxy, including Alpha Centauri Bb, the closest alien world to Earth.

IAU officials expressed disapproval of these previous projects, asserting last year that the exoplanet-naming efforts misled people into thinking they were helping select officially recognized names. But Stern fought back hard against this claim at the time, saying that Uwingu has always made clear that the projects sought only to choose “people’s choice” monikers.

To learn more about the Mars map project, and to buy a crater name of your own, go to www.uwingu.com.

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December 14, 2013 · 10:04 am

Details of 1st private manned Mars mission revealed

Details of 1st private manned Mars mission revealed

By Mike Wall

Published November 21, 2013

  • inspiration-mars-spacecraft

    An artist’s illustration of the Inspiration Mars Foundation’s spacecraft for a 2018 mission to Mars by a two-person crew. The private Mars mission would be a flyby trip around the Red Planet. (INSPIRATION MARS FOUNDATION)

  • inspiration-mars-spacecraft-concept

    An artist’s depiction of the planned Inspiration Mars spacecraft to send a married couple on a flyby mission around Mars.(INSPIRATION MARS)

  • inspiration-mars-mission-concept

    This image from an Inspiration Mars fact sheet shows the nonprofit space exploration group’s vision for its planned two-person Mars flyby mission, which it hopes to launch between 2017 and 2018. (INSPIRATION MARS)

  • inspiration-mars-mission-spacecraft-concept

    An artist’s illustration of the manned spacecraft for the Inspiration Mars mission to send two astronauts on a Mars flyby mission in 2017-2018. (INSPIRATION MARS)

A nonprofit space exploration group revealed exactly how it plans to launch two married astronauts on an ambitious manned flyby mission to the Red Planet by early 2018, a scenario that would involve NASA and federal funding along with a healthy dose of the pioneering spirit.

The Inspiration Mars project — which is led by multimillionaire Dennis Tito, the world’s first space tourist — hopes to partner with NASA, using much of the space agency’s equipment and expertise as well as an infusion of federal money to get off the launch pad by early January 2018.

“Perhaps several hundred million dollars in new federal spending can make this mission happen,” Inspiration Mars officials wrote in a report, released Wednesday, that outlines the mission’s proposed architecture. “We now call on our nation’s leaders to seize this singular opportunity to begin human exploration of the solar system and affirm America’s leadership throughout the world.” [Private Mission to Mars Explained (Infographic)]

‘Perhaps several hundred million dollars in new federal spending can make this mission happen.’

– Inspiration Mars officials

The proposed “Mission for America” would launch a married couple toward the Red Planet sometime between Dec. 25, 2017 and Jan. 5, 2018, to take advantage of a rare favorable alignment of Mars and Earth.

The two astronauts would not land on the Red Planet but would cruise within 100 miles of its surface before heading back home, eventually touching down on Earth in May 2019 after spending 501 days in space.

The flyby mission will help inspire the next generation of researchers and engineers, preserving America’s competitive edge in science and technology, Inspiration Mars officials say. It should also lay the foundation for even more ambitious manned exploration of the solar system, they add.

“There’ll be a lot of science return and techology return,” Taber MacCallum, Inspiration Mars’ chief technology officer, told reporters during a teleconference today. “We will, I think, sort of break the sound barrier for going to Mars and back, enabling a range of missions to occur in the future.”

The current mission plan, as outlined in the report, calls for using NASA’s Space Launch System mega-rocket (SLS), which is in development with a first flight slated for late 2017.

The flyby mission would require two launches in quick succession. In the first liftoff, an SLS would loft four payloads to Earth orbit: an SLS upper-stage rocket; a 600-cubic-foot habitat module derived from Orbital Sciences’ Cygnus cargo vessel; a service module that would support the habitat module with power, propulsion and communications systems; and an Earth re-entry pod, which would be based on NASA’s Orion capsule.

The second launch — this one likely using a commercial rocket — would deliver the two astronauts to orbit aboard a yet-to-be-selected private spaceship. The crewmembers would then transfer to the habitat module, and the SLS upper stage would propel them on toward Mars.

The married couple would spend virtually the entire mission in the habitat module, transferring to the re-entry pod in the last few hours of the mission.

Inspiration Mars officials acknowledge that making all of this happen will be challenging. The re-entry pod, for example, will have to protect the astronauts from the blazing heat generated when it slams into Earth’s atmosphere at about 32,000 mph.

But it can be done, and the current plan — which emphasizes the use of technology already proven or in development whenever possible — gives the mission the best chance of success, Inspiration Mars officials say.

“We submit this report with unreserved faith in the men and women of NASA, with a singleminded commitment to surmounting every obstacle, and with complete confidence that this mission can be done,” they write in the report.

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September 27, 2013 · 8:55 am

Water Found on Mars!

H2 oh my: NASA’s Curiosity rover finds water in Mars dirt

By Mike Wall

Published September 26, 2013

  • curiosity-mosaic-sol-85

    SA’s Mars rover Curiosity is a mosaic of photos taken by the rover’s Mars Hand Lends Imager taken on Sol 85, the rover’s 85th Martian day, as Curiosity was sampling rocks at a stop dubbed Rocknest in Gale Crater. Image released Sept. 26, 2013.(NASA/JPL-CALTECH/MALIN SPACE SCIENCE SYSTEMS)

  • curiosity-rocknest-closeup

    At left, a closeup view of the Mars rock target Rocknest taken by the Curiosity rover showing its sandy surface and shadows that were disrupted by the rover’s front left wheel. At right, a view of Mars samples from Curiosity’s third dirt scoop (SCIENCE/AAAS)

  • curiosity-chemin-science-result

    This image depicts the science result from the Mars rover Curiosity’s CheMin instrument, showing an X-ray diffraction of the rover’s fifth scoop of Martian dirt. The black semi-circle at the bottom is the shadow of the beam stop. Image released(SCIENCE/AAAS)

Future Mars explorers may be able to get all the water they need out of the red dirt beneath their boots, a new study suggests.

NASA’s Mars rover Curiosity has found that surface soil on the Red Planet contains about 2 percent water by weight. That means astronaut pioneers could extract roughly 2 pints of water out of every cubic foot of Martian dirt they dig up, said study lead author Laurie Leshin, of Rensselaer Polytechnic Institute in Troy, N.Y.

“For me, that was a big ‘wow’ moment,” Leshin told SPACE.com. “I was really happy when we saw that there’s easily accessible water here in the dirt beneath your feet. And it’s probably true anywhere you go on Mars.” [The Search for Water on Mars (Photos)]

The new study is one of five papers published in the journal ScienceThursday that report what researchers have learned about Martian surface materials from the work Curiosity did during its first 100 days on the Red Planet.

Soaking up atmospheric water
Curiosity touched down inside Mars’ huge Gale Crater in August 2012, kicking off a planned two-year surface mission to determine if the Red Planet could ever have supported microbial life. It achieved that goal in March, when it found that a spot near its landing site called Yellowknife Bay was indeed habitable billions of years ago.

‘The dirt is acting like a bit of a sponge and absorbing water from the atmosphere.’

– Laurie Leshin, of Rensselaer Polytechnic Institute 

But Curiosity did quite a bit of science work before getting to Yellowknife Bay. Leshin and her colleagues looked at the results of Curiosity’s first extensive Mars soil analyses, which the 1-ton rover performed on dirt that it scooped up at a sandy site called Rocknest in November 2012.

Using its Sample Analysis at Mars instrument, or SAM, Curiosity heated this dirt to a temperature of 1,535 degrees Fahrenheit, and then identified the gases that boiled off. SAM saw significant amounts of carbon dioxide, oxygen and sulfur compounds — and lots of water on Mars.

SAM also determined that the soil water is rich in deuterium, a “heavy” isotope of hydrogen that contains one neutron and one proton (as opposed to “normal” hydrogen atoms, which have no neutrons). The water in Mars’ thin air sports a similar deuterium ratio, Leshin said.

“That tells us that the dirt is acting like a bit of a sponge and absorbing water from the atmosphere,” she said.

Some bad news for manned exploration
SAM detected some organic compounds in the Rocknest sample as well — carbon-containing chemicals that are the building blocks of life here on Earth. But as mission scientists reported late last year, these are simple, chlorinated organics that likely have nothing to do with Martian life. [The Hunt for Martian Life: A Photo Timeline]

Instead, Leshin said, they were probably produced when organics that hitched a ride from Earth reacted with chlorine atoms released by a toxic chemical in the sample called perchlorate.

Perchlorate is known to exist in Martian dirt; NASA’s Phoenix lander spotted it near the planet’s north pole in 2008. Curiosity has now found evidence of it near the equator, suggesting that the chemical is common across the planet. (Indeed, observations by a variety of robotic Mars explorers indicate that Red Planet dirt is likely similar from place to place, distributed in a global layer across the surface, Leshin said.)

The presence of perchlorate is a challenge that architects of futuremanned Mars missions will have to overcome, Leshin said.

“Perchlorate is not good for people. We have to figure out, if humans are going to come into contact with the soil, how to deal with that,” she said.

“That’s the reason we send robotic explorers before we send humans — to try to really understand both the opportunities and the good stuff, and the challenges we need to work through,” Leshin added.

A wealth of discoveries
The four other papers published in Science today report exciting results as well.

For example, Curiosity’s laser-firing ChemCam instrument found a strong hydrogen signal in fine-grained Martian soils along the rover’s route, reinforcing the SAM data and further suggesting that water is common in dirt across the planet (since such fine soils are globally distributed).

Another study reveals more intriguing details about a rock Curiosity studied in October 2012. This stone — which scientists dubbed “Jake Matijevic” in honor of a mission team member who died two weeks after the rover touched down — is a type of volcanic rock never before seen on Mars.

However, rocks similar to Jake Matijevic are commonly observed here on Earth, especially on oceanic islands and in rifts where the planet’s crust is thinning out.

“Of all the Martian rocks, this one is the most Earth-like. It’s kind of amazing,” said Curiosity lead scientist John Grotzinger, a geologist at the California Institute of Technology in Pasadena. “What it indicates is that the planet is more evolved than we thought it was, more differentiated.”

The five new studies showcase the diversity and scientific value ofGale Crater, Grotzinger said. They also highlight how well Curiosity’s 10 science instruments have worked together, returning huge amounts of data that will keep the mission team busy for years to come.

“The amount of information that comes out of this rover just blows me away, all the time,” Grotzinger told SPACE.com. “We’re getting better at using Curiosity, and she just keeps telling us more and more. One year into the mission, we still feel like we’re drinking from a fire hose.”

The road to Mount Sharp
The pace of discovery could pick up even more. This past July, Curiosity left the Yellowknife Bay area and headed for Mount Sharp, which rises 3.4 miles into the Martian sky from Gale Crater’s center.

Mount Sharp has been Curiosity’s main destination since before the rover’s November 2011 launch. Mission scientists want the rover to climb up through the mountain’s foothills, reading the terrain’s many layers along the way.

“As we go through the rock layers, we’re basically looking at the history of ancient environments and how they may be changing,” Grotzinger said. “So what we’ll really be able to do for the first time is get a relative chronology of some substantial part of Martian history, which should be pretty cool.”

Curiosity has covered about 20 percent of the planned 5.3-mile trek to Mount Sharp. The rover, which is doing science work as it goes, may reach the base of the mountain around the middle of next year, Grotzinger said.

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August 13, 2013 · 11:16 am

What is the ‘Hyperloop’?

What is the ‘Hyperloop’? Billionaire Elon Musk to reveal futuristic transportation idea

By Mike Wall

Smarter America

Published August 12, 2013

  • 091231-spacex-elon-02

    SpaceX CEO Elon Musk stands next to the company’s Falcon 9 rocket, which blasted SpaceX’s Dragon capsule into orbit in December 2010. (SpaceX)

The fevered speculation about billionaire entrepreneur Elon Musk’s mysterious “Hyperloop” transport system is about to come to an end.

Musk, the visionary behind electric-car firm Tesla and the private spaceflight company SpaceX, has said he will unveil a Hyperloop design on Monday, Aug. 12, after teasing the world about the superfast travel technology for more than a year.

The solar-powered Hyperloop would allow passengers to get from Los Angeles to San Francisco in less than 30 minutes, Musk has said, meaning it must travel at speeds greater than 600 mph. The system would be cheap and convenient, he added, with tickets costing less than a seat aboard a plane or train and Hyperloop vehicles departing frequently from their various stations.

‘[It’s] a cross between a Concorde and a railgun and an air hockey table.’

– Elon Musk 

Though we don’t know exactly how the Hyperloop will work or what it will look like, Musk has dropped some hints since first disclosing the concept in July 2012. For example, this past May he described the Hyperloop as a “cross between a Concorde and a railgun and an air hockey table.”

Using that statement as inspiration, self-described “tinker” John Gardi drew up a design of a system that uses air to blast cars through long tubes. Gardi’s concept “is the closest I’ve seen anyone guess so far,” Musk tweeted on July 15. (See the diagram on Gardi’s Twitter page here.)

Musk has shared some other news about the project lately, revealing that he probably won’t have much time to develop the Hyperloop — at least not in the near future.

“I have to focus on core Tesla business and SpaceX business, and that’s more than enough,” Musk said Tuesday, Aug. 7, during a conference call with Tesla investors, Gizmodo reported.

During the call, Musk expressed hope that the worldwide community of engineers, inventors and tinkers can make something happen with the Hyperloop design he puts out there. But he didn’t close off the possibility of helping out in the future.

“If nothing happens for a few years, with that I mean maybe it could make sense to make the halfway path with Tesla involvement,” Musk said, according to Gizmodo. “But [what] I would say is, you shouldn’t be speculative.”

Read more: http://www.foxnews.com/tech/2013/08/12/what-is-hyperloop-billionaire-elon-musk/?intcmp=trending#ixzz2bsGQEnOO

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February 14, 2013 · 9:35 am

Asteroid Worth $195 Billion!

Earth-buzzing asteroid worth $195 billion, space miners say

By Mike Wall

Published February 13, 2013

Space.com

  • asteroid-art-130211

    An artist’s conception of the Feb. 15 flyby of asteroid 2012 DA14. (NASA.)

  • asteroid-path-130211

    This graphic shows 2012 DA14’s path past Earth. (NASA.)

The space rock set to give Earth a historically close shave this Friday, Feb. 15, may be worth nearly $200 billion, prospective asteroid miners say.

The 150-foot-wide asteroid 2012 DA14 — which will zoom within 17,200 miles of Earth on Friday, marking the closest approach by such a large space rock that astronomers have ever known about in advance — may harbor $65 billion of recoverable water and $130 billion in metals, say officials with celestial mining firm Deep Space Industries. 

‘While this week’s visitor isn’t going the right way for us to harvest it, there will be others that are.’

– Deep Space chairman Rick Tumlinson 

That’s just a guess, they stressed, since 2012 DA14’s composition is not well known and its size is an estimate based on the asteroid‘s brightness.

The company has no plans to go after 2012 DA14; the asteroid’s orbit is highly tilted relative to Earth, making it too difficult to chase down. But the space rock’s close flyby serves to illustrate the wealth of asteroid resources just waiting to be extracted and used, Deep Space officials said. [Deep Space Industries’ Asteroid-Mining Vision in Photos]

“While this week’s visitor isn’t going the right way for us to harvest it, there will be others that are, and we want to be ready when they arrive,” Deep Space chairman Rick Tumlinson said in a statement Tuesday.

Deep Space Industries wants to use asteroid resources to help humanity expand its footprint out into the solar system. The company plans to convert space rock water into rocket fuel, which would be used to top up the tanks of off-Earth satellites and spaceships cheaply and efficiently.

Asteroidal metals such as iron and nickel, for their part, would form the basis of a space-based manufacturing industry that could build spaceships, human habitats and other structures off the planet.

The idea is to dramatically reduce the amount of material that needs to be launched from Earth, since it currently costs at least $10 million to send 1 ton of material to high-Earth orbit, officials said.

“Getting these supplies to serve communications satellites and coming crewed missions to Mars from in-space sources like asteroids is key if we are going to explore and settle space,” Tumlinson said.

Deep Space Industries is just one of two asteroid-mining firms that have revealed their existence and intentions in the past 10 months. The other is Planetary Resources, which has financial backing from billionaires such as Google execs Larry Page and Eric Schmidt.

Deep Space aims to launch a phalanx of small, robotic prospecting probes called Fireflies in 2015. Sample-return missions to potential targets would occur shortly thereafter, with space mining operations possibly beginning around 2020.

Planetary Resources also hopes its activities open the solar system up for further and more efficient exploration. The company may launch its first low-cost prospecting space telescopes within the next year or so.

Read more: http://www.foxnews.com/science/2013/02/13/earth-buzzing-asteroid-worth-195-billion/?intcmp=features#ixzz2KpTMk900

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January 14, 2013 · 11:59 am

Largest Structure in the Universe

Largest Structure In Universe, Large Quasar Group, Challenges Cosmological Principle

Large Quasar Group

Large Quasar Group

Posted: 01/11/2013 9:45 am EST  |  Updated: 01/12/2013 5:34 pm EST

By: Mike Wall

Published: 01/11/2013 04:34 AM EST on SPACE.com

Astronomers have discovered the largest known structure in the universe, a clump of active galactic cores that stretches 4 billion light-years from end to end.

The structure is a large quasar group (LQG), a collection of extremely luminous galactic nuclei powered by supermassive central black holes. This particular group is so large that it challenges modern cosmological theory, researchers said.

“While it is difficult to fathom the scale of this LQG, we can say quite definitely it is the largest structure ever seen in the entire universe,” lead author Roger Clowes, of the University of Central Lancashire in England, said in a statement. “This is hugely exciting, not least because it runs counter to our current understanding of the scale of the universe.”

Large Quasar Group

Large Quasar Group

Quasars are the brightest objects in the universe. For decades, astronomers have known that they tend to assemble in huge groups, some of which are more than 600 million light-years wide.

But the record-breaking quasar group, which Clowes and his team spotted in data gathered by the Sloan Digital Sky Survey, is on another scale altogether. The newfound LQC is composed of 73 quasars and spans about 1.6 billion light-years in most directions, though it is 4 billion light-years across at its widest point.

To put that mind-boggling size into perspective, the disk of the Milky Way galaxy — home of Earth’s solar system — is about 100,000 light-years wide. And the Milky Way is separated from its nearest galactic neighbor, Andromeda, by about 2.5 million light-years.

The newly discovered LQC is so enormous, in fact, that theory predicts it shouldn’t exist, researchers said. The quasar group appears to violate a widely accepted assumption known as the cosmological principle, which holds that the universe is essentially homogeneous when viewed at a sufficiently large scale.

Calculations suggest that structures larger than about 1.2 billion light-years should not exist, researchers said.

“Our team has been looking at similar cases which add further weight to this challenge, and we will be continuing to investigate these fascinating phenomena,” Clowes said.

The new study was published today (Jan. 11) in the Monthly Notices of the Royal Astronomical Society.

Follow SPACE.com senior writer Mike Wall on Twitter @michaeldwall or SPACE.com @Spacedotcom. We’re also on Facebook and Google+

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January 2, 2013 · 12:57 pm

New Earth Just 12 Light Years Away?

Potentially habitable planet just 12 light-years away

By Mike Wall

Published December 19, 2012

Space.com

  • tau-ceti-alien-planets.jpg

    Artist’s impression of five possible planets orbiting the star Tau Ceti, which is just 11.9 light-years from Earth. (J. Pinfield / University of Hertfordshire)

A sun-like star in our solar system’s backyard may host five planets, including one perhaps capable of supporting life as we know it, a new study reports.

Astronomers have detected five possible alien planets circling the star Tau Ceti, which is less than 12 light-years from Earth — a mere stone’s throw in the cosmic scheme of things. One of the newfound worlds appears to orbit in Tau Ceti’s habitable zone, a range of distances from a star where liquid water can exist on a planet’s surface.

With a minimum mass just 4.3 times that of Earth, this potential planet would be the smallest yet found in the habitable zone of a sun-like star if it’s confirmed, researchers said.

‘The galaxy must have many such potentially habitable Earth-sized planets.’

– Study co-author Steve Vogt, of the University of California

“This discovery is in keeping with our emerging view that virtually every star has planets, and that the galaxy must have many such potentially habitable Earth-sized planets,” study co-author Steve Vogt, of the University of California, Santa Cruz, said in a statement. “They are everywhere, even right next door.”

Gallery: 7 Potentially Habitable Exoplanets

The five planet candidates are all relatively small, with minimum masses ranging from 2 to 6.6 times that of Earth. The possibly habitable world, which completes one lap around Tau Ceti every 168 days, is unlikely to be a rocky planet like Earth, researchers said.

“It is impossible to tell the composition, but I do not consider this particular planet to be very likely to have a rocky surface,” lead author Mikko Tuomi, of the University of Hertfordshire in England, told SPACE.com via email. “It might be a ‘water world,’ but at the moment it’s anybody’s guess.”

Spotting signals in the noise

Tau Ceti is slightly smaller and less luminous than our sun. It lies 11.9 light-years away in the constellation Cetus (the Whale) and is visible with the naked eye in the night sky. Because of its proximity and sun-like nature, Tau Ceti has featured prominently in science fiction over the years.

Astronomers have searched for exoplanets around Tau Ceti before and turned up nothing. But in the new study, researchers were able to pull five possible planetary signals out from under a mountain of noise.

Tuomi and his team re-analyzed 6,000 observations of Tau Ceti made by three different spectrographs, instruments that allow researchers to detect the tiny gravitational wobbles orbiting planets induce in their parent stars.

The three instruments are the High Accuracy Radial velocity Planet Searcher (HARPS), on the European Southern Observatory’s 3.6-meter telescope in La Silla, Chile; the University College London Echelle Spectrograph (UCLES) on the Anglo-Australian Telescope in Siding Spring, Australia; and the High Resolution Echelle Spectrometer, or HIRES, on the 10-meter Keck telescope atop Mauna Kea in Hawaii.

Using new analysis and modeling techniques, the team spotted the five faint signals, successfully separating them from noise caused by stellar activity and other factors.

“We pioneered new data modeling techniques by adding artificial signals to the data and testing our recovery of the signals with a variety of different approaches,” Tuomi said in statement. “This significantly improved our noise modeling techniques and increased our ability to find low-mass planets.”

The new analysis methods should aid the search for small planets, allowing more and more of them to be spotted throughout the galaxy, researchers said.

A Galaxy Full of Alien Planets (Infographic)

A nearby planetary system?

The five planets remain candidates at this point and will not become official discoveries until they’re confirmed by further analysis or observations. And that’s not a sure thing, researchers said.

“I am very confident that the three shortest periodicities are really there, but I cannot be that sure whether they are of planetary origin or some artifacts of insufficient noise modelling or stellar activity and/or magnetic cycles at this stage,” Tuomi said, referring to the potential planets with orbital periods of 14, 35 and 94 days (compared to 168 days for the habitable zone candidate and 640 days for the most distantly orbiting world).

“The situation is even worse for the possible habitable zone candidate, because the very existence of that signal is uncertain, yet according to our detection criteria the signal is there and we cannot rule out the possibility that it indeed is of planetary origin,” he added. “But we don’t know what else it could be, either.”

If the Tau Ceti planets do indeed exist, their proximity would make them prime targets for future instruments to study, researchers said.

“Tau Ceti is one of our nearest cosmic neighbors and so bright that we may be able to study the atmospheres of these planets in the not-too-distant future,” James Jenkins, of the Universidad de Chile and the University of Hertfordshire, said in a statement. “Planetary systems found around nearby stars close to our sun indicate that these systems are common in our Milky Way galaxy.”

If confirmed, the Tau Ceti planets would not be the closest exoplanets to Earth. That title still goes to Alpha Centauri Bb, a roasting-hot, rocky world recently spotted just 4.3 light-years away, in the closest star system to our own.

The new study has been accepted for publication in the journal Astronomy & Astrophysics.

Read more: http://www.foxnews.com/science/2012/12/19/potentially-habitable-planet-detected-around-nearby-star/?intcmp=related#ixzz2Gnb1tP94

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