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Wednesday, December 24, 2014

Fwd: Top Space Stories of 2014



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From: "Gary Johnson" <gjohnson144@comcast.net>
Date: December 24, 2014 at 9:30:15 AM CST
To: "Gary Johnson" <gjohnson144@comcast.net>
Subject: FW: Top Space Stories of 2014

 

 

Universe Today's Top 10 Space Stories of 2014

by Elizabeth Howell on December 23, 2014

 

Images from the Rosetta spacecraft show Philae drifting across the surface of its target comet during landing Nov. 12, 2014. Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

Images from the Rosetta spacecraft show Philae drifting across the surface of its target comet during landing Nov. 12, 2014. Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

It seems a lot of the space stories of this year involve spacecraft making journeys: bouncing across a comet, or making their way to Mars. Private companies also figure prominently, both in terms of successes and prominent failures.

These are Universe Today's picks for the top space stories of the year. Disagree? Think we forgot something? Let us know in the comments.

10. End of Venus Express

Artist's impression of Venus Express performing aerobreaking maneuvers in the planet's atmosphere in June and July 2014. Credit: ESA–C. Carreau

Artist's impression of Venus Express performing aerobreaking maneuvers in the planet's atmosphere in June and July 2014. Credit: ESA–C. Carreau

This month saw the end of Venus Express' eight-year mission at the planet, which happened after the spacecraft made a daring plunge into part of the atmosphere to learn more about its properties. The spacecraft survived the aerobraking maneuvers, but ran out of fuel after a few engine burns to raise it higher. Soon it will plunge into the atmosphere for good. But it was a productive mission overall, with discoveries ranging from a slowing rotation to mysterious "glories".

9. Continued discoveries by Curiosity and Opportunity

1 Martian Year on Mars!  Curiosity treks to Mount Sharp in this photo mosaic view captured on Sol 669, June 24, 2014.    Navcam camera raw images stitched and colorized.   Credit: NASA/JPL-Caltech/Marco Di Lorenzo/Ken Kremer – kenkremer.com

1 Martian Year on Mars! Curiosity treks to Mount Sharp in this photo mosaic view captured on Sol 669, June 24, 2014. Navcam camera raw images stitched and colorized. Credit: NASA/JPL-Caltech/Marco Di Lorenzo/Ken Kremer – kenkremer.com

Methane? Organics? Water? Mars appears to have had these substances in abundance over its history. Continued work from the Curiosity rover — passing its second Earth year on Mars — found methane fluctuating in Gale Crater, and the first confirmed discovery of organics on the Martian surface. Opportunity is almost 11 years into its mission and battling memory problems, but the rover is still on the move (passing 41 kilometers) to an area that could be full of clay.

8. Siding Spring at Mars and the level of study of the comet by other missions at Mars

Comet Siding Spring near Mars in a composite image by the Hubble Space Telescope, capturing their positions between Oct. 18 8:06 a.m. EDT (12:06 p.m. UTC) and Oct. 19 11:17 p.m. EDT (Oct. 20, 3:17 a.m. UTC). Credit: NASA, ESA, PSI, JHU/APL, STScI/AURA

Comet Siding Spring near Mars in a composite image by the Hubble Space Telescope, capturing their positions between Oct. 18 8:06 a.m. EDT (12:06 p.m. UTC) and Oct. 19 11:17 p.m. EDT (Oct. 20, 3:17 a.m. UTC). Credit: NASA, ESA, PSI, JHU/APL, STScI/AURA

We had a rare opportunity to watch a comet make a grazing pass by Mars, not close enough to pose significant danger to spacecraft, but definitely close enough to affect its atmosphere! Siding Spring caught everyone's attention throughout the year, and did not disappoint. The numerous spacecraft at the Red Planet caught glimpses, including from the surface and from orbit. It likely created a meteor shower and could alter the Martian atmosphere forever.

7. Kepler K2

Illustration of the Kepler spacecraft (NASA/Kepler mission/Wendy Stenzel)

Illustration of the Kepler spacecraft (NASA/Kepler mission/Wendy Stenzel)

The Kepler space telescope lost the second of its four pointing devices last year, requiring a major rethink for the veteran planet hunter. The solution was a new mission called K2 that uses the pressure of the Sun to maintain the spacecraft's direction, although it has to flip every 83 days or so to a new location to avoid the star's glare. It's not as precise as before, but with the mission approved we now know for sure K2 can locate exoplanets. The first confirmed one is a super-Earth.

6. MAVEN at Mars

An artist's conception of MAVEN orbiting Mars. Image Credit: NASA / Goddard Space Flight Center

An artist's conception of MAVEN orbiting Mars. Image Credit: NASA / Goddard Space Flight Center

Where did the Martian atmosphere go? Why was it so thick in the past, allowing water to flow on the surface, and so thin right now? The prevailing theory is that the Sun's pressure on the Martian atmosphere pushed lighter isotopes (such as that of hydrogen) away from the planet, leaving heavier isotopes behind. NASA is now investigating this in more detail with MAVEN (Mars Atmosphere and Volatile Evolution), which arrived at the planet this fall.

5. India's MOM

Artist's impression of India's Mars Orbiter Mission (MOM). Credit ISRO

Artist's impression of India's Mars Orbiter Mission (MOM). Credit ISRO

India made history this year as only the third entity to successfully reach the Red Planet (after the United States and Europe). While updates from the Mars Orbiter Mission have been slow in recent weeks, we know for sure that it observed Siding Spring at Mars and it has been diligently taking pictures of the Red Planet, such as this one of the Solar System's largest volcano and a huge canyon on Mars.

4. Accidents by Virgin and Orbital

NTSB investigators are seen making their initial inspection of debris from the Virgin Galactic SpaceShipTwo. The debris field stresses over a fiver mile range in the Mojave desert. (Credit: Getty Images)

NTSB investigators are seen making their initial inspection of debris from the Virgin Galactic SpaceShipTwo. The debris field stresses over a fiver mile range in the Mojave desert. (Credit: Getty Images)

In one sobering week in October, the dangers of space travel were again made clear after incidents affected Virgin Galactic and Orbital Sciences. Virgin lost a pilot and seriously injured another when something went seriously awry during a flight test. Investigators have so far determined that the re-entry system turned on prematurely, but more details are being determined. Orbital meanwhile suffered the catastrophic loss of one of its Antares rockets, perhaps due to Soviet-era-designed engines, but the company is looking at other ways to fulfill its NASA contractual obligations to send cargo to the International Space Station.

3. SpaceX rocket landing attempts

The Falcon 9 rocket with landing legs in SpaceX's hangar at Cape Canaveral, Fl, preparing to launch Dragon to the space station this Sunday March 30.  Credit: SpaceX

The Falcon 9 rocket with landing legs in SpaceX's hangar at Cape Canaveral, Fl, preparing to launch Dragon to the space station this Sunday March 30. Credit: SpaceX

SpaceX is attempting a daunting technological feat, which is bringing back its rocket first stages for re-use. The company is hoping that this will cut down on the costs of launch in the long term, but this technological innovation will take some time. The Falcon 9 rocket stage that made it back to the ocean in July was deemed a success, although the force of the landing broke it apart. Next, SpaceX is trying to place its rocket on an ocean platform.

2. Orion flight

Orion Service Module fairing separation. Credit: NASA TV

Orion Service Module fairing separation. Credit: NASA TV

NASA's spacecraft for deep space exploration (Orion) successfully finished its first major uncrewed test this month, when it rode into orbit, made a high-speed re-entry and successfully splashed down in the ocean. But it's going to be a while before Orion flies again, likely in 2017 or even 2018. NASA hopes to put a crew on this spacecraft type in the 2020s, potentially for trips to the Moon, an asteroid or (more distantly) Mars.

1. Rosetta

New Rosetta mission findings do not exclude comets as a source of water in and on the Earth's crust but does indicate comets were a minor contribution. A four-image mosaic comprises images taken by Rosetta's navigation camera on 7 December from a distance of 19.7 km from the centre of Comet 67P/Churyumov-Gerasimenko. (Credit: ESA/Rosetta/Navcam Imager)

New Rosetta mission findings do not exclude comets as a source of water in and on the Earth's crust but does indicate comets were a minor contribution. A four-image mosaic comprises images taken by Rosetta's navigation camera on 7 December from a distance of 19.7 km from the centre of Comet 67P/Churyumov-Gerasimenko. (Credit: ESA/Rosetta/Navcam Imager)

It's been an exciting year for the Rosetta mission. First it woke up from a lengthy hibernation, then it discovered that Comet 67P/Churyumov-Gerasimenko looks a bit like a rubber duckie, and then it got up close and released the Philae lander. The soft touchdown did not go as planned, to say the least, as the spacecraft bounced for two hours and then came to rest in a spot without a lot of sunlight. While Philae hibernates and controllers hope it wakes up again in a few months, however, science results are already showing intriguing things. For example, water delivered to Earth likely came mostly from other sources than comets.

 

 


 

 

The Biggest Astronomy Stories of 2014

by Calla Cofield, Space.com Staff Writer   |   December 23, 2014 04:53pm ET

 

Exoplanet Kepler-186f

An artist's concept of Kepler-186f, the first Earth-sized planet found orbiting in the habitable zone of its parent star.
Credit: NASA Ames/SETI Institute/JPL-Caltech View full size image

The year 2014 was a packed one for astronomical science.

Over the last 12 months, scientists made historic progress in the study of Mars, had two close encounters with comets, and may have found hints of dark matter and signals from the Big Bang. It's enough to make us eager for 2015 to see what new discoveries await. 

But there are some stories that stand out from the crowd that was space science in 2014. Here is our list of the biggest astronomy stories of the year:

Historic year in Mars exploration

Tantalizing new information about the Red Planet, along with new clues about the possibility that it once supported life, was revealed this year. 2014 also happens to be the 50-year launch anniversary of the first probe ever sent to Mars.

In December, scientists working on the Mars rover Curiosity announced that the Red Planet hosts organic chemicals (those that contain carbon and are the building blocks of life on Earth). The chemicals chlorobenzene, dichloroethane, dichloropropane and dichlorobutane were discovered inside a rock that Curiosity drilled into in May 2013. Researchers stressed that their findings do not indicate that life exists or ever existed on Mars — but it does open the door of possibility.

In addition, scientists confirmed in December that the rover had detected methane on Mars, despite not finding any trace of methane last year. Living organisms on Earth are known to produce high levels of methane, so its presence on the Red Planet is another possible sign of life.

NASA's Mars Atmosphere and Volatile Evolution (MAVEN) spacecraft arrived at the Red Planet on Sept. 21, just in time to observe the flyby of Comet Siding Spring. The $671 million mission will focus on uncovering the events that changed the planet from a world with lakes and rivers, to a complete desert.

Just two days after MAVEN, India's Mars Orbiter Mission (MOM) arrived at the fourth planet from the sun. The $74 million mission is India's first probe to reach Mars. MOM is carrying a camera (and has already snapped some stunning photos), and four scientific instruments that will study the planet's surface and atmosphere.

The swarm of activity around Mars came during the 50-year anniversary of the launch of the Mariner 4 spacecraft in 1964. Mariner 4 was the first probe to ever fly by Mars and the first mission to take up-close images of another planet from deep space. In celebration of the anniversary, the space-funding company Uwingu used radio telescopes to beam nearly 90,000 messages straight at the Red Planet. 

Cosmic Microwave Background Radiation

An image of the cosmic microwave background radiation, taken by the European Space Agency (ESA)'s Planck satellite in 2013, shows the small variations across the sky
Credit: ESA/Planck Collaboration

View full size image

Big Bang discovery bites the dust

The BICEP2 collaboration grabbed headlines in March when it claimed to have found evidence that our universe rapidly expanded after the Big Bang, causing ripples in the fabric of the universe. By September, outside evaluation had thrown serious doubt on the findings. 

BICEP2 (which stands for the Background Imaging of Cosmic Extragalactic Polarization) uses a telescope in Antarctica to detect the light left over from the Big Bang, called the cosmic microwave background (CMB). Patterns in that light that are very difficult to detect could indicate that the universe rapidly expanded shortly after the Big Bang and that the expansion created gravitational waves, or ripples in space-time.

In September, scientists working with the European Space Agency's (ESA) Planck satellite, which also studies the CMB, showed that what BICEP2 interpreted as patterns in the light could be nothing more than gas and dust in the Milky Way. The biggest cosmological finding of the 21st century seemed to crumble.

Now, BICEP2 and Planck will directly compare their data, to try to make a more definitive statement about the results. It is still possible that BICEP2's original interpretation is correct. [BICEP2 and the Origins of the Universe: Behind the Buzz]

Europe's Philae lander took this panorama from the surface of Comet 67P/Churyumov–Gerasimenko after its historic touchdown on Nov. 12, 2014. Philae's body is superimposed on the image.

Europe's Philae lander took this panorama from the surface of Comet 67P/Churyumov–Gerasimenko after its historic touchdown on Nov. 12, 2014. Philae's body is superimposed on the image.
Credit: ESA/Rosetta/Philae/CIVA

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First touchdown on a comet

In a historic first, ESA landed a probe on a comet. The Philae lander managed to conduct a brief study of the space rock before it lost power and went into hibernation mode.

Philae's mother ship Rosetta spacecraft traveled for 10 years and about 4 billion miles (6.4 billion kilometers) to reach Comet 67P/Churyumov-Gerasimenko. In the early-morning hours of Nov. 12, Philae left Rosetta and traveled the remaining 317 miles (510 km) to the comet. Philae hit the target landing area, but harpoons meant to secure it to the surface did not deploy. Philae bounced twice before settling down for good.

Philae is solar-powered, and the region where it came to rest is in shadow. Unable to recharge, Philae is in hibernation mode.

Before Philae shut down, it did manage to conduct some science. Instruments aboard the lander detected organic molecules — those that contain carbon are a necessary ingredient of life on Earth — in the comet's composition. One of the probe's instruments also made an attempt at hammering into the surface of the comet and found it to be as hard as ice, according to ESA.

"This machine performed magnificently under tough conditions, and we can be fully proud of the incredible scientific success Philae has delivered," Philae lander manager Stephan Ulamec of DLR German Aerospace Agency said in an ESA blog post.

Hubble Views Comet Siding Spring and Mars

A NASA Hubble Space Telescope composite image shows the positions of comet Siding Spring and Mars as the comet streaked by the red planet, at 2:28 p.m. EDT on Oct. 19, 2014.
Credit: NASA, ESA, PSI, JHU/APL, STScI/AURA

View full size image

Mars Siding Spring encounter

Mars experienced a very rare close encounter with a comet in 2014. Comet Siding Spring came within 87,000 miles (139,500 kilometers) of the Red Planet, and left behind a shower of dust for scientists to study.

The five satellites currently orbiting Mars had to batten down the hatches, so to speak, and prepare for the comet to buzz by at a top speed of 126,000 mph (203,000 km/h) relative to the planet. In reality, the probes moved to the opposite side of Mars, which turned out to be a smart move: The comet dumped a few thousand kilograms (about 4,000 lbs.) of material on the planet — far more than scientists had anticipated.

The orbiters were able to study the effect of the massive dust dump, which "literally changed" the Martian atmosphere, according to Jim Green, head of NASA's Planetary Science Division. Scientists say the dust contained high levels of sodium, which would likely have given the sky a yellowish hue as it fell through the Martian atmosphere and burned up. Early analyses also detected iron, zinc, potassium, manganese, nickel and chromium. The dust also contained high levels of magnesium, which was a significant contrast to the Martian atmosphere.  [Mars Myths & Misconceptions: Quiz]

 A comet flies this close to Mars approximately once every 8 million years, according to Green. "We've got a lot of research going on and it's going to be at least another year before all the results are in."

Exoplanet Kepler-186f

An artist's concept of Kepler-186f, the first Earth-sized planet found orbiting in the habitable zone of its parent star.
Credit: NASA Ames/SETI Institute/JPL-Caltech

View full size image

Earth-size planet found in the habitable zone

For the first time, scientists identified an Earth-size planet in the habitable zone of its parent star. The "Earth cousin" could have liquid water and, potentially, the right conditions for life.

The new planet, called Kepler-186f, is less than 10 percent larger than Earth, and orbits a red dwarf star. Red dwarfs are smaller and dimmer than our sun, but the planet still lies in the star's habitable zone — a distance at which the planet could have a surface temperature at which water would remain a liquid.

Kepler-186f is the outermost of five planets orbiting the star Kepler-186, located about 490 light-years from Earth. Scientists think it could be a rocky planet, but they don't yet know if Kepler-186f has an atmosphere suitable for life. As planets become more massive, they become more likely to resemble gas giants like Jupiter, rather than terrestrial planets like Earth and Mars.

Kepler-186f was discovered by the Kepler space telescope. In February, scientists with the Kepler mission announced that they had discovered more than 700 new exoplanets — more than doubling the number of confirmed exoplanets.

Andromeda Galaxy

Astronomers have spotted a possible signal of dark matter in X-rays streaming from the Andromeda galaxy (pictured) and the Perseus galaxy cluster.
Credit: André van der Hoeven

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Dark-matter signal detected?

It's possible that years from now, 2014 will be remembered as the year dark matter was first detected.

Researchers using data from ESA's XMM-Newton spacecraft reported finding a mysterious X-ray signal coming from both the Andromeda galaxy and the Perseus galaxy cluster. The signal doesn't correspond to any known matter, and the researchers say that one plausible explanation is dark matter.

Dark matter has never been directly detected by scientists (that remains true until the signal from XMM-Newton is confirmed as dark matter). It does not emit, reflect or absorb light (hence the name "dark" matter). But scientists estimate that dark matter makes up 80 percent of the matter in our universe, and it exerts a measureable gravitational force on regular matter like stars and galaxies.

The XMM-Newton results haven't garnered the kind of attention from the scientific community that one might expect for the discovery of the century. Researchers say there are still alternative explanations for the mysterious signal.

Scientists don't know what dark matter is made of, but there are multiple candidate particles. The new results would indicate that dark matter is made of a particle called an axion. Other dark-matter searches are looking for particles called weakly interacting massive particles, or WIMPs.

This year, the U.S. Department of Energy and the U.S. National Science Foundation approved funding for three next-generation dark-matter experiments, which will all be at least 10 times more sensitive than current detectors. The hope is that once these experiments are up and running, an answer to the dark-matter puzzle will be just around the corner.

Borexino Neutrino Detection

Neutrinos produced in a specific fusion process in the heart of the sun were detected by the Borexino detector. The detector's inner shell — a nylon sphere filled with purified benzene — is seen here.
Credit: Borexino Collaboration

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Solar neutrinos

Scientists are not yet able to look directly into the heart of the sun, but the detection of particles that are produced in the burning core may be the next best thing.

Scientists with the Borexino experiment at Gran Sasso National Laboratory near L'Aquila, Italy, announced in August that they had detected ghostly little particles called neutrinos, produced in the fusion process that keeps the sun burning. The detection confirms scientists' current understanding of stellar fusion.

Neutrinos are particles that pass through regular matter more than 99 percent of the time. Billions of them pass through the palm of your hand every second.

Scientists first detected neutrinos coming from the sun in the 1960s, but those were produced by different processes taking place in Earth's nearest star and tended to have higher energies than the newly detected neutrinos. With higher energies, neutrinos are generally more likely to interact with matter (like a particle detector) and, as a result, are easier to detect.

Because neutrinos rarely interact with regular matter, they escape from the sun instantly, and provided a direct line between the core of the sun and scientists on Earth. Andrea Pocar, of the University of Massachusetts, Amherst and part of the Borexino team, told Space.com by email in August that the neutrinos "allow us to look at the majority of the fusion reactions in the sun's core in real time, as they happen, minus an 8-minute delay for travel to Earth."

The researchers say these particular neutrinos could help them answer other questions, like how neutrinos spontaneously change "flavors."

Filament of the Cosmic Web

The light from the bright quasar UM287 illuminated the 2 million light-year long nebula, which is part of a filament of the cosmic web.
Credit: S. CANTALUPO, UCSC/ W.M. Keck Observatory

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First glimpse at the cosmic web

This year, scientists got a glimpse at one of the largest structures ever observed in our universe: a thread of the cosmic web, stretching 2 million light-years across the universe.

At very large scales, our universe may resemble a spider web, with long strings of gas stretched between galaxies, connecting them together. This cosmic web hypothesis goes well with theory, but scientists had not seen the intergalactic threads directly until this year.

Using the Keck telescope in Hawaii, the researchers studied the light from an intensely bright object called a quasar, which happened to be pointed at such an angle that it lit up the gas thread between two galaxy nodes. Quasars are powered by material surrounding supermassive black holes, and they shine brighter than all the stars in their host galaxy combined.

"The quasar is illuminating diffuse gas on scales well beyond any we've seen before, giving us the first picture of the extended gas between galaxies," J. Xavier Prochaska, of the University of California, Santa Cruz, said in January. "It provides a terrific insight into the overall structure of the universe."

The results could also help scientists study the distribution of dark matter in the universe. The distribution of regular matter is believed to mirror that of dark matter, so where tendrils of gas are found, dark matter may lurk as well.

October 2014 Lunar Eclipse

Astrophotographer Maxwell Palau captured the lunar eclipse in San Diego, California, on Oct. 8 — the second total lunar eclipse of 2014. Two more total lunar eclipses will occur in 2015.
Credit: : Maxwell Palau/StarDude Astronomy

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Total lunar eclipse tetrad begins

2014 was a good year for skywatchers: It featured two total lunar eclipses, in which the moon dips entirely into the shadow of the Earth and takes on a deep red shade. Two more complete lunar eclipses will take place in 2015, for a total of four in a row, which is known as a lunar tetrad.

The eclipses took place on April 15 and Oct. 8, and were visible in all or part of North and South America. The next two will take place on April 4, 2015, and Sept. 28, 2015, and will be visible in all or part of the United States.

There are three kinds of lunar eclipses, according to NASA: penumbral eclipses, in which the moon passes through the outer portion of the Earth's shadow and very little change occurs in the way the moon looks in the sky; a partial eclipse, in which the moon passes partly through the core of the Earth's shadow so part of it is darkened; and a total eclipse, in which the moon is totally consumed by the Earth's shadow and turns a deep shade of red.

Eclipses occur roughly twice per year, but there is no particular pattern in what type of lunar eclipse will occur. While eight lunar tetrads will occur in the 21st century, there were no tetrads between 1600 and 1900. NASA scientists say it is also rare for all four eclipses to be visible in the United States.

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