Small Spacecraft Ejected from Space Station Airlock Will Provide Same-Day, On-Demand Parcel Delivery

Small Spacecraft Ejected from Space Station Airlock Will Provide Same-Day, On-Demand Parcel Delivery:

Artist concept of the Terrestrial Return Vehicle (TRV). Credit: Intuitive Machines

Getting to the International Space Station is no easy task. Generally speaking, it involves loading up a space capsule with several tons of cargo and then expending millions of liters of fuel to get it into orbit. This process is time consuming and very expensive. And what if astronauts want to send some things back? Currently, their only option for return capability is provided by the same cargo capsules that are sent up to them.

Which means that the only way the ISS can send things back to Earth is for us to spend several million dollars sending a return vehicle up to them. Luckily, this is about to change, thanks to a project known as the Terrestrial Return Vehicle (TRV).


The TRV represents a collaborative effort between NASA and CASIS, the non-profit Center for the Advancement of Science in Space, which was recently endowed  with the responsibility of making sure that we make good use of the US laboratory aboard the ISS. Towards this end, they have contracted with Intuitive Machines – a Texas-based private space firm – to create a return vehicle that will enable the on-demand, rapid return of experiments from the International Space Station (ISS) National Laboratory.

“I believe with this new ‘on demand’ delivery capability for returning scientific samples to earth we will extend the viability of the ISS National Laboratory as a research platform for commercial benefit,” Steve Altemus, the president of Intuitive Machines, told Universe Today via email. “The principle investigators and scientists engaged in microgravity research in space can now begin to imagine new and different experiments and methodologies enabled by returning samples on a nearly daily basis and landing them precisely and gently on the Earth.”

The proposed TRV is a small, wingless capsule that can be loaded up with samples and ejected from the airlock in the Japanese Experiment Module (JEM), guaranteeing delivery back to Earth in under 24 hours. From the outside, the design looks a little like the Space Shuttle, or the Boeing X-37B space plane. Minus the stubby wings, of course.

The International Space Station. Credit: NASA

For the ISS crews, having these vehicles on hand will be a major boon for research, allowing for the delivery of critical or perishable samples to Earth laboratories in a timely manner. A number of these TRV’s will be shipped to the ISS – presumably as part of a normal cargo run using a SpaceX Dragon capsule.

Once there, the process for using them to make deliveries will be quite straightforward. First, astronauts will load them with the scientific samples they intend to send home. Then, they will push them out the airlock and shunt them out into space using the Station’s Japanese-made robotic arm.

The TRV will then return to Earth much like any other spacecraft, descending through the atmosphere and eventually deploying a parachute to slow it down from supersonic speeds. Another larger parachute will deploy once it’s closer to the ground and bring it safely down to a landing site in Utah.

This return trip will take six hours, and since the ISS orbits the Earth about 15 times a day, the total delivery time should always be less than 24 hours. This will be especially useful considering that a number of scientific experiments take place on the International Space Station, mainly because the zero-gravity environment is more ideal for growing cell cultures in three dimensions.

Getting a TRV from the Space Station back to Earth. Credit: Intuitive Machines (some images courtesy of NASA)

“The International Space Station, with its unique microgravity laboratories and crew, enables research over a wide range of disciplines from physics through biology,” said Dr. David Wolf, a research scientist and former astronaut. “This small payload return capability will provide controlled conditions and flexible choices for timely sample analysis. The scientific team will be able to much more efficiently adjust experimental parameters in response to results, exploit unique results, and correct problems encountered.”

In short, if astronauts are busy testing techniques for bioprinting organs or developing new types of pharmaceuticals, they would certainly prefer to send the samples produced straight back to Earth rather than being forced to wait weeks for a cargo ship to arrive.

However, beyond facilitating the research efforts of astronauts, Intuitive Machines sees the TRV as a means of enabling new and exciting research aboard the ISS National Laboratory, as well as opening the door for commercial ventures in space.

Currently, Intuitive Machines plans to provide its TRV technology to a wide range of customers – including scientific, academic, commercial, and government interests. It is their hope that the new same-day capability will enable increased utilization of the ISS as a national laboratory, and improve the commercialization opportunities of experiments for terrestrial benefit.

The first batch of TRVs is scheduled to be sent up to the ISS in 2016. At first, they will be used strictly to return scientific samples – but apparently, a version that would be capable of returning live rodents is also in the works.

Further Reading: Intuitive Machines

About Matt Williams

Author, freelance writer, educator, Taekwon-Do instructor, and loving hubby, son and Island boy!

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Orbiting Solar Observatory Sees It Burn, Burn, Burn: The Ring of Fire

Orbiting Solar Observatory Sees It Burn, Burn, Burn: The Ring of Fire:

Image of the Oct. 23, 2014, eclipse acquired with the Hinode spacecraft’s X-ray telescope. (NASA/JAXA/SAO)

Did you catch the solar eclipse on October 23? If so, you saw the Moon “take a bite” out of the Sun (to various extents, depending on your location) during what was a partial eclipse for viewers on Earth. But for the Hinode (pronunciation alert: that’s “HEE-no-day”) solar observatory satellite, in its Sun-synchronous orbit around Earth at an altitude of 600 km (373 miles), the eclipse was annular – a “ring of fire.”

The image above was captured with Hinode’s X-ray Telescope at the moment of maximum annularity. Want to watch it burn, burn, burn like Hinode did? Check out a video below:



Not to be confused with “annual,” meaning yearly, an annular eclipse occurs when the Moon passes directly in front of the Sun but at such a distance from Earth to not quite manage to fully cover the Sun’s disk. The bright ring of visible Sun around the Moon’s silhouette gives the event its name: annular is from the Latin word anulus, meaning ring.

The next annular eclipse to be visible from Earth will occur on Sept. 1, 2016.

Led by the Japan Aerospace Exploration Agency (JAXA), the Hinode mission is a collaboration between the space agencies of Japan, the United States, the United Kingdom, and Europe, and is now in its eighth year. NASA helped in the development, funding, and assembly of the spacecraft’s three science instruments. Learn more about the mission here.

Image and video credits: NASA/JAXA/SAO

About Jason Major

A graphic designer in Rhode Island, Jason writes about space exploration on his blog Lights In The Dark, Discovery News, and, of course, here on Universe Today. Ad astra!

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Completely Gorgeous Shot of the Milky Way Over Jasper National Park

Completely Gorgeous Shot of the Milky Way Over Jasper National Park:

by Nancy Atkinson on October 27, 2014

The Milky Way over Lake Annette in Jasper National Park, Alberta, a Dark Sky Preserve, on October 24, 2014. Credit and copyright: Alan Dyer/Amazing Sky Photography.

Does it get any more gorgeous than this? What an absolutely beautiful view of the night sky over Lake Annette and Whistler’s Mountain in Jasper National Park.

“I shot this at the Lake Annette Star Party, one of the Dark Sky Festival events, using the Canon 60Da and 10-22mm lens at 10mm f/4 and ISO 3200 for 1 minute, untracked,” said prolific astrophotographer Alan Dyer on Flickr. “Shot October 24, 2014, with fresh snow on Whistler across the lake and valley and on a calm night with still waters reflecting the stars.”


Absolutely spell-binding! Click on the image for larger versions on Flickr, and check out more of Alan’s stunning imagery on his website, Amazing Sky Photography.

#MilkyWayMonday

Want to get your astrophoto featured on Universe Today? Join our Flickr group or send us your images by email (this means you’re giving us permission to post them). Please explain what’s in the picture, when you took it, the equipment you used, etc.

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Comet K1 PanSTARRS: See It Now Before it Heads South

Comet K1 PanSTARRS: See It Now Before it Heads South:

Comet K1 PanSTARRS cruises through Hydra on October 1st. Note the twin opposing ion and dust tail. Credit: Ken Moore, used with permission.

Comet C/2012 K1 PanSTARRS, one of the most dependable comets of 2014, may put on its encore performance over the coming weeks for southern hemisphere observers.

First, the story thus far. Discovered as a +19th magnitude smudge along the borders of the constellations Ophiuchus and Hercules in mid-May 2012 courtesy of the Panoramic Survey Telescope And Rapid Response System (PanSTARRS) based atop Haleakala on the Hawaiian island of Maui, astronomers soon realized that comet C/2012 K1 PanSTARRS would be something special.

The comet broke +10^th magnitude to become a visible binocular object in early 2014, and wowed northern hemisphere observers as it vaulted across the constellations of Boötes and Ursa Major this past spring.

NASA’s NEOWISE mission spies K1 PanSTARRS on May 20th as it slides by the galaxy NGC 3726 (blue). Credit: NASA/JPL.

The comet is approaching the inner solar system on a retrograde, highly-inclined orbit tilted 142 degrees relative the ecliptic. This bizarre orbit also assures that the comet will actually reach opposition twice in 2014 as seen from our earthly vantage point: once on April 15^th, and another opposition coming right up on November 7^th.

As was the case with comet Hale-Bopp way back in 1997, had C/2012 K1 PanSTARRS arrived six months earlier or later, we would’ve been in for a truly spectacular show, as the comet reached perihelion on August 27^th, 2014, only 0.05 A.U.s (4.6 million miles or 7.7 million kilometres) outside the orbit of the Earth! But such a spectacle was not to be… back in ’97, Hale-Bopp’s enormous size — featuring a nucleus estimated 40 to 60 kilometres across — made for a grand show regardless… fast forward to 2014, and the tinier nucleus of K1 PanSTARRS has been relegated to binocular status only.

The position of comet K1 PanSTARRS as it passes its second opposition of the year. Credit: NASA/JPL.

From here on out, K1 PanSTARRS is headed south “with a bullet” and into memory for most northern hemisphere observers. We spied the comet this morning low to the south near +3^rd magnitude Nu Puppis in the pre-dawn sky with our trusty 15×45 binocs from Yuma, Arizona, for what will probably be our last time. This also means that the time to catch a last glimpse of K1 PanSTARRS for northern hemisphere viewers is now. This week sees the comet transiting just 20 degrees above the southern horizon at 3:00 to 4:00 AM local for observers based from latitude 30 degrees north as it crosses the constellation Puppis. The bright star Sirius nearly shares the same position as the comet in right ascension this week, and K1 PanSTARRS sits about 24 degrees south of the Dog Star.

Comet K1 PanSTARRS imaged on June 14th. Credit: Efrain Morales.

Halloween sees the comet even lower, crossing the southern meridian at only 13 degrees elevation as seen from latitude 30 degrees north. Draw a straight line from Sirius to the south celestial pole around this date to find the comet just 5 degrees to the north of Canopus.

But the show is just beginning for southern hemisphere residents. Observing from the town of Bright Australia, Robert Kaufmann recently noted in a posting on the Yahoo Groups Comet Observer’s message board that the comet currently exhibits a 4’ wide coma shining at about magnitude +7.3 with an elevation of 28 degrees above the horizon on October 25^th.

And if the comet holds steady in brightness, it may break the visual threshold and become a naked eye object as seen from a dark sky site in early November.

The projected light curve of K1 PanSTARRS with brightness observations (black dots). The vertical pink line marks the comet’s perihelion passage in late August. Credit: Seiichi Yoshida’s Weekly Information on Bright Comets.

The comet will be literally “hauling tail” across the constellation Dorado as it nears its second opposition of the year on November 7^th, moving about 1.5 degrees a day – 3 times the apparent diameter of the Full Moon – on closest approach.

Currently, the comet has been observed to have an estimated magnitude holding steady at+7 and is predicted to peak at perhaps magnitude +6 early next month. And while it would’ve been great had it arrived 6 months earlier or later, the aforementioned high retrograde inclination of its orbit assured that K1 PanSTARRS was a top performer for both hemispheres in 2014.

Perihelion passage occurred two months ago, but to paraphrase a famous Monty Python skit, Comet K1 PanSTARRS is “not dead yet.”  Here are some key observing dates coming right up as the comet gains prominence in the southern hemisphere sky:

(Note that close passages of less than one degree near stars +4^th magnitude or brighter only are mentioned).

Oct 31^st: Passes closest to Earth, at 0.953 A.U.s distant.

Nov 1^st: Crosses into the constellation Pictor.

Nov 2^nd: Passes near the +3.8 magnitude star Beta Pictoris.

Nov 6^th: Crosses into the constellation Dorado.

Nov 6^th: Full Moon occurs, marking the beginning of an unfavorable week for comet hunting.

Nov 7^th: The second opposition of the comet for 2014 occurs at 3:00 UT.

Nov 8^th: Passes near the +3.3 magnitude star Alpha Doradus.

Nov 11^th: Crosses into the constellation Reticulum.

Nov 13^th: Crosses into the constellation Horologium.

Nov 14^th: Passes 34 degrees from the South Celestial Pole.

Nov 20^th: Crosses into the constellation Eridanus.

Nov 22^nd: New Moon occurs, marking a week long span optimal for comet-hunting.

Nov 25^th: Crosses into the constellation Phoenix.

The path of K1 PanSTARRS from October 27th through December 1st. Created by the author using Starry Night Education Software.

Dec 6^th: Full Moon occurs.

Dec 12^th: Passes near the +2.8 magnitude star Alpha Phoenicis (Ankaa).

Dec 18^th: Crosses into the constellation Sculptor.

Dec 22^nd: New Moon occurs.



Looking at 2015, K1 PanSTARRS will probably fall back below +10^th magnitude by late January. The comet will then head back out into the depths of the outer solar system, its multi-million year orbit only slightly altered by its inner solar system passage down into the ~700,000 year range. What will Earth be like on that far off date? Will human eyes greet the comet once again, and will anyone remember its appearance way back in the mists of time in 2014? All thoughts to ponder as we bid fair well to Comet C/2012 K1 PanSTARRS, a fine binocular comet indeed.

About David Dickinson

David Dickinson is an Earth science teacher, freelance science writer, retired USAF veteran & backyard astronomer. He currently writes and ponders the universe from Tampa Bay, Florida.

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China’s Lunar Test Spacecraft Takes Incredible Picture of Earth and Moon Together

China’s Lunar Test Spacecraft Takes Incredible Picture of Earth and Moon Together:

by Nancy Atkinson on October 28, 2014

A unique view of the Moon and distant Earth from China’s Chang’e-5 T1 lunar test flight. Image via Xinhua News and UnmannedSpaceflight.com.

The Chinese lunar test mission Chang’e 5T1 has sent back some amazing and unique views of the Moon’s far side, with the Earth joining in for a cameo in the image above. According to the crew at UnmannedSpaceflight.com the images were taken with the spacecraft’s solar array monitoring camera.

Add this marvelous shot to previous views of the Earth and Moon together.

A closeup of Mare Marginis, a lunar sea that lies on the very edge of the lunar nearside. Credit: Xinhua News, via UnmannedSpacefight.com.

The mission launched on October 23 and is taking an eight-day roundtrip flight around the Moon and is now journeying back to Earth. The mission is a test run for Chang’e-5, China’s fourth lunar probe that aims to gather samples from the Moon’s surface, currently set for 2017. Chang’e 5T1 will return to Earth on October 31.

The test flight orbit had a perigee of 209 kilometers and reached an apogee of about 380,000 kilometers, swinging halfway around the Moon, but did not enter lunar orbit.

A view of Earth on October 24, 2014, from the Chinese Chang’e-5 T1 spacecraft. Credit: Xinhua News, via UnmannedSpaceflight.com.

See original images at Xinhua News.

H/T: Cosmic_Penguin and Unmanned Spaceflight.

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Just In Time for Halloween: Jupiter Gets a Giant Cyclops Eye!

Just In Time for Halloween: Jupiter Gets a Giant Cyclops Eye!:

Jupiter’s Great Red Spot and Ganymede’s Shadow. Image Credit: NASA/ESA/A. Simon (Goddard Space Flight Center)

Halloween is just around the corner. And in what appears to be an act of cosmic convergence, Hubble captured a spooky image of Jupiter staring back at us with a cyclops eye!

While this is merely a convenient illusion caused by the passage of Ganymede in front of Jupiter – something it does on a regular basis – the timing and appearance are perfect.

The above image, however, was captured by the Hubble Space Telescope on April 21st, 2014, when kids were perhaps thinking of the Easter Bunny, not monsters and goblins. At the time, Hubble was being used to monitor changes in Jupiter’s immense Great Red Spot (GRS) storm.

During the exposures, the shadow of the Jovian moon Ganymede swept across the center of the GRS, giving the giant planet the uncanny appearance of having a pupil in the center of its 16,000 km-diameter (10,000-mile) “eye.”

The conjunction was so perfect, scientists at the NASA Goddard Space Flight Center claimed that “For a moment, Jupiter ‘stared’ back at Hubble like a one-eyed giant Cyclops.”

Thermal images of Jupiter’s Great Red Spot. Image credit: NASA/JPL/ESO and NASA/ESA/GSFC

First observed by Italian astronomer Gian Domenico Cassini in 1665, the GRS is a massive anticyclonic storm that lies 22° south of Jupiter’s equator and is believed to have a lifetime of 300 to 400 years.

The storm has apparently been shrinking over the past few decades – to the point that astronomers believe that it could become circular by the year 2040 and even disappear altogether someday.

Nevertheless, its existence continues to fascinate and inspire. And as the above image demonstrates, it can still catch us by surprise!

The above image was one of several natural-color pictures taken by Hubble’s Wide Field Camera 3.

Further Reading: HubbleSite

About Matt Williams

Author, freelance writer, educator, Taekwon-Do instructor, and loving hubby, son and Island boy!

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Breaking: Antares Rocket Explodes at Liftoff

Breaking: Antares Rocket Explodes at Liftoff:



Seconds after liftoff, Orbital Science’s Antares rocket exploded as it rose from the Mid-Atlantic Regional Spaceport at Wallops Island, Virginia. In video, the explosion appeared to come at the base of the rocket. The entire stack then fell back to the ground, with a second larger explosion.

According to NASA TV, there were no injuries reported at the launch site but there appears to be damage to the launch pad.

We’ll provide more information and updates as they become available. NASA and Orbital said they would be scheduling a news conference. Our Ken Kremer is on location at Wallops.

Photo of #Antares rocket exploding just after launch from @NASA_Wallops on Wallops Island, VA. Rocket unmanned. #nasa pic.twitter.com/3jMSYgp6mc

— Eduardo A. Encina (@EddieInTheYard) October 28, 2014

This is the first launch failure for NASA’s commercial space companies. Antares has had five successful launches. The launch was originally scheduled for Oct. 27 but was scrubbed when a boat entered restricted waters off the coast from the launch site.

The mission, was the third of eight Commercial Resupply Services missions that Orbital Sciences is under contract to NASA. The Cygnus capsule, named by Orbital the “SS Deke Slayton” after the late astronaut, was carrying 2,290 kilograms of cargo for the International Space Station.

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Cassini Probe Spots Methane Ice Crystals In Titan’s Atmosphere

Cassini Probe Spots Methane Ice Crystals In Titan’s Atmosphere:

This cloud in the stratosphere over Titan’s north pole (left) is similar to Earth’s polar stratospheric clouds (right). NASA scientists found that Titan’s cloud contains methane ice, which was not previously thought to form in that part of the atmosphere. Cassini first spotted the cloud in 2006. Credit:
L. NASA/JPL/U. of Ariz./LPGNantes; R. NASA/GSFC/M. Schoeberl

During its 2006 flyby of Titan, the Cassini Space Probe captured some of the most detailed images of Saturn’s largest moon. Amongst them was one showing the lofty cloud formations over Titan’s north pole (shown above). Interestingly enough, these cloud formations bear a strong resemblance to those that are seen in Earth’s own polar stratosphere.


However, unlike Earth’s, these clouds are composed entirely of liquid methane and ethane. Given Titan’s incredibly low temperatures – minus 185 °C (-300 °F) – it’s not surprising that such a dense atmosphere of liquid hydrocarbons exists, or that seas of methane cover the planet.

What is surprising, however, is the fact that methane crystals also exist in this atmosphere. Eight years after the photos of Titan’s north pole were taken, astronomers have concluded that this region also contains trace amounts of methane ice.


“The idea that methane clouds could form this high on Titan is completely new,” said Carrie Anderson, a Cassini participating scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and lead author of the study. “Nobody considered that possible before.”

Other stratospheric clouds had been identified on Titan already, including clouds of ethane – a chemical formed after methane breaks down. Delicate clouds of cyanoacetylene and hydrogen cyanide, which form from reactions of methane byproducts with nitrogen molecules, have also been found there.

But clouds of frozen methane were thought unlikely in Titan’s stratosphere. Because the troposphere traps most of the moisture, stratospheric clouds require extreme cold. Even the stratosphere temperature of minus 203 °C (-333 °F), observed by Cassini just south of the equator, was not cold enough to allow the scant methane in this region of the atmosphere to condense into ice.

A composite image of Titan’s atmosphere, created using blue, green and red spectral filters to create an enhanced-color view. Image Credit: NASA/JPL/Space Science Institute

What Anderson and her Goddard co-author, Robert Samuelson, noted is that temperatures in Titan’s lower stratosphere are not the same at all latitudes. This was based on data taken from Cassini’s Composite Infrared Spectrometer and the spacecraft’s radio science instrument, which showed that the high-altitude temperature near the north pole was much colder than that just south of the equator.

It turns out that this temperature difference – as much as 6 °C (11 °F) – is more than enough to yield methane ice.

Other observations made of Titan’s cloud system support this conclusion, such as how certain regions appear denser than others, and the larger particles detected are the right size for methane ice. They also confirmed that the expected amount of methane – 1.5%, which is enough to form ice particles – is present in the lower polar stratosphere.

What’s more, the observation confirms certain models of how Titan’s atmosphere is thought to work.

According to this model, Titan has a global circulation pattern in which warm air in the summer hemisphere wells up from the surface and enters the stratosphere, slowly making its way to the winter pole. There, the air mass sinks back down, cooling as it descends, which allows the stratospheric methane clouds to form.

“Cassini has been steadily gathering evidence of this global circulation pattern, and the identification of this new methane cloud is another strong indicator that the process works the way we think it does,” said Michael Flasar, Goddard scientist and principal investigator for Cassini’s Composite Infrared Spectrometer (CIRS).

Like Earth’s stratospheric clouds, Titan’s methane cloud was located near the winter pole, above 65 degrees north latitude. Anderson and Samuelson estimate that this type of cloud system – which they call subsidence-induced methane clouds (or SIMCs for short) – could develop between 30,000 to 50,000 meters (98,000 to 164,000 feet) in altitude above Titan’s surface.

“Titan continues to amaze with natural processes similar to those on the Earth, yet involving materials different from our familiar water,” said Scott Edgington, Cassini deputy project scientist at NASA’s Jet Propulsion Laboratory (JPL) in Pasadena, California. “As we approach southern winter solstice on Titan, we will further explore how these cloud formation processes might vary with season.”

The results of this study are available online in the November issue of Icarus.

Further Reading: NASA/GSC

About Matt Williams

Author, freelance writer, educator, Taekwon-Do instructor, and loving hubby, son and Island boy!

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Here’s What it Looks Like When a Refrigerator Hits the Moon

Here’s What it Looks Like When a Refrigerator Hits the Moon:

The impact site of the LADEE spacecraft is clear to see. Actually, not really. One must compare two LROC images of the same site photographed before and after the impact to locate it. Click on the image to view the animated gif holding the pair. Image dimensions: approx. 223 x 125 meters (Photo Credits: NASA/GSFC/LROC)

Ever wonder what your refrigerator’s impacting at the speed of a tank artillery shell would do to the Moon? The Lunar Reconnaissance Orbiter’s (LRO) primary camera has provided an image of just such an event when it located the impact site of another NASA spacecraft, the Lunar Atmosphere and Dust Environment Explorer (LADEE). The fridge-sized LADEE spacecraft completed its final Lunar orbit on April 18, 2014, and then crashed into the far side of the Moon. LADEE ground controllers were pretty certain where it crashed but no orbiter had found it until now. With billions of craters across the lunar surface, finding a fresh crater is a daunting task, but a new method of searching for fresh craters is what found LADEE.

(...)
Read the rest of Here’s What it Looks Like When a Refrigerator Hits the Moon (1,256 words)

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Double Disc Found Feeding Each Other In Binary Star System

Double Disc Found Feeding Each Other In Binary Star System:

This wide-field view shows the sky around the young multiple star system GG Tauri, which appears very close to the centre of this picture. This view also shows a dust cloud and evidence of star formation near the top of the picture. Credit: ESO/Digitized Sky Survey 2. Acknowledgement: Davide De Martin

Deep within the Taurus Dark Cloud complex, one of the closest star-forming regions to Earth has just revealed one of its secrets – an umbilical cord of gas flowing from the expansive outer disc toward the interior of a binary star system known as GG Tau-A. According to the ESO press release, this never-before-seen feature may be responsible for sustaining a second, smaller disc of planet-forming material that otherwise would have disappeared long ago.

A research group led by Anne Dutrey from the Laboratory of Astrophysics of Bordeaux, France and CNRS used the Atacama Large
Millimeter/submillimeter Array (ALMA) to observe the distribution of
dust and gas in the unusual GG Tau-A system. Since at least half of
Sun-like stars are the product of binary star systems, these type of
findings may produce even more fertile grounds for discovering
exoplanets. However, the 450 light year distant GG Tau system is even more complex than previously thought. Through observations taken with the VLTI, astronomers have discovered its primary star – home to the inner disc – is part of a more involved multiple-star system. The secondary star is also a close binary!

“We may be witnessing these types of exoplanetary systems in the midst of formation,” said Jeffrey Bary, an astronomer at Colgate University in Hamilton, N.Y., and co-author of the paper. “In a sense, we are learning why these seemingly strange systems exist.”

Let’s take a look…

This artist’s impression shows the dust and gas around the double star system GG Tauri-A. Researchers using ALMA have detected gas in the region between two discs in this binary system. This may allow planets to form in the gravitationally perturbed environment of the binary. Half of Sun-like stars are born in binary systems, meaning that these findings will have major consequences for the hunt for exoplanets.

“Like a wheel in a wheel, GG Tau-A contains a large, outer disc
encircling the entire system as well as an inner disc around the main central star. This second inner disc has a mass roughly equivalent to that of Jupiter.” says the research team. “Its presence has been an intriguing mystery for astronomers since it is losing material to its central star at a rate that should have depleted it long ago.”

Thanks to studies done with ALMA, the researchers made an exciting discovery in these disc structures… gas clumps located between the two. This observation could mean that material is being fed from the outer disc to feed the inner. Previously observations done with ALMA show that a single star pulls its materials inward from the outer disc. Is it possible these gas pockets in the double disc GG Tau-A system are creating a sustaining lifeline between the two?

“Material flowing through the cavity was predicted by computer
simulations but has not been imaged before. Detecting these clumps
indicates that material is moving between the discs, allowing one to
feed off the other,” explains Dutrey. “These observations demonstrate that material from the outer disc can sustain the inner disc for a long time. This has major consequences for potential planet formation.”

As we know, planets are created from the materials leftover from
stellar ignition. However, the creation of a solar system occurs at a snail’s pace, meaning that a debris disc with longevity is required for planet formation. Thanks to these new “disc feeding” observations from ALMA, researchers can surmise that other multiple-star systems behave in a similar manner… creating even more possibilities for exoplanet formation.

“This means that multiple star systems have a way to form planets, despite their complicated dynamics. Given that we continue to find interesting planetary systems, our observations provide a glimpse of the mechanisms that enable such systems to form,” concludes Bary.

During the initial phase of planetary searches, the emphasis was placed on Sun-like, single-host stars. Later on, binary systems gave rise to giant Jupiter-sized planets – nearly large enough to be stars on their own. Now the focus has turned to pointing our planetary discovery efforts towards individual members of multiple-systems.

Emmanuel Di Folco, co-author of the paper, concludes: “Almost half the Sun-like stars were born in binary systems. This means that we have found a mechanism to sustain planet formation that applies to a significant number of stars in the Milky Way. Our observations are a big step forward in truly understanding planet formation.”

Original Story Source: Planet-forming Lifeline Discovered in a Binary Star System ALMA Examines Ezekiel-like “Wheel in a Wheel” of Dust and Gas – ESO Science News Release.

About Tammy Plotner

Tammy is a professional astronomy author, President Emeritus of Warren Rupp Observatory and retired Astronomical League Executive Secretary. She’s received a vast number of astronomy achievement and observing awards, including the Great Lakes Astronomy Achievement Award, RG Wright Service Award and the first woman astronomer to achieve Comet Hunter's Gold Status.

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This Dark Nebula Looks Like it is Writhing in Agony

This Dark Nebula Looks Like it is Writhing in Agony:

by Nancy Atkinson on October 29, 2014

LBN 438 is a dark nebula and can be found in the constellation Lacerta. Credit and copyright: Adam Block/Mount Lemmon SkyCenter/University of Arizona.

We’ve got at least one scary night ahead with Halloween falling on Friday. Adam Block, manager at the Mount Lemmon SkyCenter at the University of Arizona sent us this image of the nebula LBN 438, explaining that this dark cloud of dust glows eerily both from scattered starlight and extended red emission due to the radiation of a nearby star.

“My mind alternates between something dancing in ecstasy or writhing in torture,” Adam said. “Either way, very spooky…”


Adam just happens to have access to a 32-inch Schulman Telescope (RCOS) at Mt Lemmon, and used a SBIG STX16803 CCD Camera to get this scary shot. Find out more about this image here.

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Mercury Pierces the Zodiacal Light at Dawn this Weekend

Mercury Pierces the Zodiacal Light at Dawn this Weekend:

Mercury as seen from latitude 30 degrees north on November 1st, 40 minutes prior to sunrise. Credit: Stellarium.

Psst! Ever spy the planet Mercury? The most bashful of all the naked eye planets makes its best dawn appearance of 2014 this weekend for northern hemisphere observers. And not only will Mercury be worth getting up for, but you’ll also stand a chance at nabbing that most elusive of astronomical phenomena — the zodiacal light — from a good dark sky sight.

DST note: This post was written whilst we we’re visiting Arizona, a land that, we’re happy to report, does not for the most part observe the archaic practice of Daylight Saving Time. Life goes on, zombies do not arise, and trains still run on time. In the surrounding world of North America, however, don’t forget to “fall back” one hour on Sunday morning, November 2^nd. I know, I know. Trust me, we didn’t design the wacky system we’re stuck with today. All times noted below post-shift reflect this change, but it also means that you’ll have to awaken an hour earlier Sunday November 2^nd onwards to begin your astronomical vigil for Mercury!

The apparent daily path of Mercury as seen from 30 degrees north from October 21st to November 14th. Created using Starry Night Education Software.

Mercury starts the month of November reaching greatest elongation on Saturday, November 1^st at 18.7 degrees west of the Sun at 13:00 Universal Time UT/09:00 EDT. Look for Mercury about 10 degrees above the eastern horizon 40 minutes before sunrise. The planet Jupiter and the stars Denebola and Regulus make good morning guideposts to trace the line of the ecliptic down to the horizon to find -0.3 magnitude Mercury.

Mars, Mercury and the International Space Station caught during an evening apparition in 2013. (Photo by author)

Sweeping along the horizon with binoculars, you may just be able to spy +0.2 magnitude Arcturus at a similar elevation to the northwest. The +1st magnitude star Spica also sits to Mercury’s lower right. Mercury passes 4.2 degrees north of Spica on November 4^th while both are still about 18 degrees from the Sun, making for a good study in contrast.

Later in the month, the old waning crescent Moon will present a challenge as it passes 2.1 degrees north of Mercury on November 21^st, though both will only be 9 degrees from the Sun on this date.

Mercury also passes 1.6 degrees south of Saturn November 26^th, but both are only 7 degrees from the Sun and unobservable at this point. But don’t despair, as you can always watch all of the planetary conjunction action via SOHO’s sunward staring LASCO C3 camera, which has a generous 15 degree field of view.

Mercury (the bright ‘star’ with spikes) transits SOHO’s LASCO C3 camera. Credit: NASA/ESA/SOHO.

At the eyepiece, Mercury starts off the month of November as a 57% illuminated gibbous disk about 7” in diameter. This will change to a 92% illuminated disk 5″ across on November 15^th, as the planet races towards superior conjunction on the far side of the Sun on December 8th. As with Venus, Mercury always emerges in the dawn sky as a crescent headed towards full phase, and the cycle reverses for both planets when they emerge in the dusk sky.

Why aren’t all appearances of Mercury the same? Mercury orbits the Sun once every 88 days, making greatest elongations of Mercury far from uncommon: on average, we get three dawn and three dusk apparitions of the innermost world per year, with a maximum of seven total possible. Two main factors come into play to assure that not all appearances of Mercury are created equal.

A depiction of the evening motion of Mercury and Venus as seen from Earth. Credit: NASA.

One is the angle of the ecliptic, which is the imaginary plane of our solar system that planets roughly follow traced out by the Earth’s orbit. In northern hemisphere Fall, this angle is at its closest to perpendicular at dawn, and the dusk angle is most favorable in the Spring. In the southern hemisphere, the situation is reversed. This serves to place Mercury as high as possible out of the atmospheric murk during favorable times, and shove it down into near invisibility during others.

The second factor is Mercury’s orbit. Mercury has the most elliptical orbit of any planet in our solar system at a value of 20.5% (0.205), with an aphelion of 69.8 million kilometres and perihelion 46 million kilometres from the Sun. This plays a more complicated role, as an elongation near perihelion only sees the planet venture 18.0 degrees from the Sun, while aphelion can see the planet range up to 27.8 degrees away. However, this distance variation also leads to noticeable changes in brightness that works to the advantage of Mercury spotters in the opposite direction. Mercury shines as bright as magnitude -0.3 at closer apparitions, to a full magnitude fainter at more distant ones at +0.7.

In the case of this weekend, greatest elongation for Mercury occurs just a week after perihelion, which transpired on October 25^th.

Mercury transits the Sun earlier this year as captured by the Curiosity rover on Mars. Credit: NASA/JPL.

Mercury is also worth keeping an eye on in coming years, as it will also transit the Sun for the first time since 2006 on May 9^th, 2016. This will be visible for Europe and North America. We always thought it a bit strange that while rarer transits of Venus have yet to make their sci-fi theatrical debut, a transit of Mercury does crop up in the film Sunshine.

The first week of November is also a fine time to try and spy the zodiacal light. This is a cone-shaped glow following the plane of the ecliptic, resulting from sunlight backscattered across a dispersed layer of interplanetary dust. The zodiacal light was a common sight for us from the dark skies of Arizona, often rivaling the distant glow of Tucson over the mountains. The zodiacal light vanished from our view after moving to the humid and often light polluted U.S. East Coast, though we’re happy to report that we can once again spy it as we continue to traverse the U.S. southwest this Fall.

The zodiacal light captured by Cory Schmitz over the Drakensberg Mountains in South Africa. (Used with permission). 

None other than rock legend Brian May of Queen fame wrote his PhD dissertation on the zodiacal light and the distribution and relative velocity of dust particles along the plane of the solar system. Having a dark site and a clear flat horizon is key to nabbing this bonus to your quest to cross Mercury off your life list this weekend!

About David Dickinson

David Dickinson is an Earth science teacher, freelance science writer, retired USAF veteran & backyard astronomer. He currently writes and ponders the universe from Tampa Bay, Florida.

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Possible Bright Supernova Lights Up Spiral Galaxy M61

Possible Bright Supernova Lights Up Spiral Galaxy M61:

An animation showing the new supernova in the galaxy M61 photographed on October 30, 2014, paired with an older archive photo Credit: Ernesto Guido, Martino Nicolini, Nick Howes

I sat straight up in my seat when I learned of the discovery of a possible new supernova in the bright Virgo galaxy M61. Since bright usually means close, this newly exploding star may soon become visible in smaller telescopes. It was discovered at magnitude +13.6 on October 29th by Koichi Itagaki of Japan, a prolific hunter of supernovae with 94 discoveries or co-discoveries to his credit. Itagaki used a CCD camera and 19.6-inch (0.50-m) reflector to spy the new star within one of the galaxy’s prominent spiral arms. Comparison with earlier photos showed no star at the position. Itagaki also nabbed not one but two earlier supernovae in M61 in December 2008 and November 2006.

The possible supernova in the bright galaxy M61 in Virgo is located 40″ east and 7″ south of the galaxy’s core at right ascension (RA) 12 h 22′, declination (Dec) +4º 28′. It’s currently magnitude +13.4 and visible in the morning sky before dawn in 8-inch and larger telescopes. Credit: Ernesto Guido, Martino Nicolini, Nick Howes

Overnight, Ernesto Guido and crew used a remote telescope in New Mexico to confirm the new object. We’re still waiting for a spectrum to be absolutely sure this is the real deal and also to determine what type of explosion occurred. In the meantime, it may well brighten in the coming mornings.

M61 is a beautiful barred spiral galaxy located about 55 million light years from Earth in the constellation Virgo. It’s one of the few galaxies to show spiral structure in smaller telescopes. Credit: Hunter Wilson

Supernovae are divided into two broad categories – Type Ia and Type II. In a Type Ia event,  a planet-sized white dwarf star in close orbit around a normal star siphons off matter from its companion which builds up on the surface of the dwarf until it reaches critical mass at which point the core ignites and consumes itself and the star in one titanic nuclear fusion reaction.  A cataclysmic explosion ensues as the star self-destructs in blaze of glory.

Evolution of a Type Ia supernova. Credit: NASA/ESA/A. Feild

Type Ia explosions can become 5 billion times brighter than the Sun – the reason we can see them across so many light years – and eject matter into space at 5,000 – 20,000 km/second. Type II events mark the end of the life of a massive supergiant star. As these behemoths age, they burn by fusing heavier and heavier elements in their cores from hydrogen to carbon to silicon and finally, iron-nickel. Iron is inert and can’t be cooked or fused to create more energy. The star’s internal heat source, which has been staving back the force of gravity all these millions of years, shuts down.  Gravity takes hold with a vengeance, the star quickly collapses then rebounds in a titanic explosion. Ka-boom!

Artist’s impression of a Type II supernova explosion which involves the destruction of a massive supergiant star. Credit: ESO

Like the Type Ia event, a Type II supernova grows to fantastic brilliance. Besides a legacy of radiant light, star debris, the creation of heavy elements like gold and lead, a Type II event will sometimes leave behind a tiny, city-sized, rapidly-spinning neutron star – the much compressed core of the original star – or even a black hole. So yes, life can continue for a giant star after a supernova event. But like seeing a former classmate at your 40th high school reunion, you’d hardly recognize it.

The “Y” or “cup” of Virgo rises into good view shortly before the start of dawn or about 2 hours before sunrise. This map shows the sky facing east around 6 a.m. local time (DST) tomorrow October 31 and 5 a.m. standard time starting Sunday when Daylight Saving Time ends. Source: Stellarium

Are you itching to see this new supernova for yourself? Here are a couple maps to help you find it. M61 is located in the middle of the “Y” of Virgo not far from the familiar bright double star Gamma Virginis.  From many locations, the galaxy climbs to 15-20° altitude in the east-southeast sky just before the start of dawn, just high enough for a good view. Once you find the galaxy, look for a small “star” superimposed on its eastern spiral arm as shown in the photo at the top of this article.

In this close up view, stars are shown to magnitude +7.5. M61 is right between 16 and 17 Virginis (magnitudes 5 and 6.5 respectively). Click to enlarge.  Source: Stellarium

I’ll be out there with my scope watching and will report back once it’s established what type of supernova happens to be blowing up in our eyepieces. More information about the new object can be found anytime at David Bishop’s Latest Supernovae site. Good luck, clear skies!

** Update Nov. 1 : M61’s supernova now has a name and type! SN 2014dt is a Type Ia (exploding white dwarf) with some peculiarities in its spectrum. It’s also little brighter at magnitude +13.2.

About Bob King

I'm a long-time amateur astronomer and member of the American Association of Variable Star Observers (AAVSO). My observing passions include everything from auroras to Z Cam stars. Every day the universe offers up something both beautiful and thought-provoking. I also write a daily astronomy blog called Astro Bob.

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