A 22 degree Sun halo was seen in Kuala Lumpur on October 2, 2012. Credit: Shahrin Ahmad
Denizens of Kuala Lumpur, Malaysia were treated to a stunning mid-day meteorological phenomenon today (October 2, 2012,) a Sun Halo. A ‘rainbow’ of sorts forms around the Sun (or the Moon, too) when the light is refracted by ice crystals from high cirrostratus clouds.
News reports said the spectacle began around 12.30pm local time, “a sight which drew gasps of wonder from office workers on their way to lunch.”
Shahrin Ahmad captured the beautiful view and sent it to Universe Today.
“This is among the cleanest view of the Halo I’ve seen so far, and created quite a buzz everywhere,” he said.
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NGC6888 The Crescent Nebula & Wolf Rayet Star (WR136). Credit: John Chumack.
Here’s an impressive shot of NGC 6888, also known as the Crescent Nebula, which is a cosmic bubble about 25 light-years across. It is part of the massive Gamma Cygni Nebula region, and in the center is a powerful, bright and massive Wolf-Rayet star. “The very energetic Wolf-Rayet star is shedding its outer envelope in a strong stellar wind, ejecting the equivalent of the Sun’s mass every 10,000 years,” explains prolific and talented astrophotographer John Chumack. “This cosmic bubble is located in this very rich star studded field, which is about 3,000 light years away.”
To capture this image, John used a QHY8 cooled Color CCD Camera and his homemade 16″ Newtonian Scope, with a 90 minute exposure, taken on August 24, 2012 at his observatory in Yellow Springs, Ohio. See more of his work at his website, Galactic Images.
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The original observations (top) and interpretations (bottom) of the first ever amateur albedo map of Ganymede. Credit: Manos Kardasis.
As our frequent “Astrophoto” posts from amateur astronomers and photographers attest – as well as the rise of citizen science — , the latest technology allows amatuers to make significant contributions to the field of astronomy. Case in point: Emmanuel I. Kardasis of the Hellenic Amateur Astronomy Association has produced the first amateur albedo map of Jupiter’s moon Ganymede. He used an off-the-shelf telescope, camera and computer equipment, but put his experienced observing skills to the test.
“Ganymede has a tiny disk as seen from Earth so was a good test for my techniques,” said Kardasis. “If the same methods were applied to other worlds, perhaps the volcanic moon Io, we could capture surface fluctuations. Professional observatories may create better images but they cannot monitor our rapidly and ever-changing Universe.”
Albedo maps of Ganymede (left) and how they relate to known surface features (right). Credit: Manos Kardasis.
Like many amateurs, Kardasis attached a camera to his telescope and recorded a video of Ganymede. Selecting only the sharpest frames of the video allowed him to obtain a series of images when the atmospheric conditions – known as ‘seeing’ – were most favorable. These best images were then stacked and aligned, before being enhanced through photo-editing software.
An albedo map details higher areas of reflectivity on an object’s surface recording where material is brighter or darker. Kardasis’ albedo map closely aligns with professional images of Ganymede’s surface, indicating features such as Phrygia Sulcus (furrows and ridges 3,700 km across) and the Nicholson region (a low-lying darker area).
Amateur photographs of Jupiter and Ganymede, accompanied with a professionally-obtained labeled map (bottom right). Credit: Manos Kardasis.
“Creating useful images of planets requires a telescope with a diameter of at least eight inches, said Kardasis. “For tiny discs, such as the moons of Jupiter, bigger is definitely better. My Ganymede images were made using an 11-inch telescope. You also need a good motor drive on your tripod, a sensitive camera, some freely-available software, and lots of patience!”
Kardasis presented his images at the European Planetary Science Congress this week in Madrid, Spain. He suggests that future amateur programs could monitor both surface and atmospheric changes on worlds as varied as Uranus, Neptune and Titan, complementing more detailed but far less regular observations made by professionals. Kardasis says, “I hope my work will inspire anyone interested in astronomy to use whatever equipment they have to make useful observations.”
Mars from July, 2011 to June 2012. Credit: Efrain Morales, Jaicoa Observatory
Superman has nothing on this big “S” created by putting together views of Mars for one full year. Efrain Morales from the Jaicoa Observatory in Puerto Rico compiled just a few images of Mars he captured from July of 2011 to June of 2012, and this collage shows the size differences in how Mars appeared in a telescope as the planet moved toward and then reached opposition in March of 2012, and how it appeared during the months afterward. Also visible is how the North Polar Cap decreased in size as the seasons changed on the red Planet.
Equipment: LX200ACF 12 inch, OTA, CGE mount, Flea3 CCD, TeleVue 3x barlows, Astronomik LRGB filter set. See more of Efrain’s work at his website.
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An impact on Jupiter captured about 6:35 am on Sept. 10, 2012 from Dallas, Texas USA. Credit: George Hall.
A bright flash was spotted on Jupiter early on the morning of September 10, 2012, and astronomers were hoping to later see an impact “scar” which would provide more information about the object that slammed into the giant gas planet. Was it a comet, asteroid or a smaller meteor? But alas, no impact scar or debris field showed up on Jupiter’s face and the nature of this explosion may remain a mystery.
“By performing spectroscopic measurement of the debris field we hope to be capable of determining the nature of the impactor,” SETI astronomer Franck Marchis told Universe Today via email. “Without debris field it is virtually impossible since the bolide burned in the upper atmosphere. One day we may be capable of recorded a spectrum of the meteor itself (during the impact) but right now we don’t have such capabilities.”
The flash was first spotted by Dan Peterson, an amateur astronomer from Racine, Wisconsin who saw the flash as he was looking through a telescope, but he wasn’t recording his observations. He posted about his sighting on the Association of Lunar & Planetary Observers message board (ALPO), reporting the explosion, which occurred inside the southern edge of Jupiter’s northern equatorial belt of clouds.
Astrophotographer George Hall of Dallas, Texas happened to be shooting video of Jupiter at the time – although he wasn’t actually watching Jupiter himself. When he heard about Petersen’s visual, Hall reviewed his video and saw he had captured the flash at 6:35 a.m. CDT.
Many astronomers were waiting for the next day when the impact region would be visible again to look for a debris field, as the explosion looked very similar to an impact that occurred in June 2010, which left an impact scar that was visible for several hours.
However, astronomer Mike Wong from the University of California, Berkeley had stayed up all night to estimate the amount of energy delivered by this fireball. As he posted on his blog, he predicted “that this event is too small to create a visible impact scar.”
He ended up being right.
Since there was no impact scar, the space telescopes like Hubble weren’t activated to take a look.
But some ground-based telescopes, like NASA’s Infrared Telescope Facility did take a look. Astronomer Glenn Orton, a senior research scientist at the Jet Propulsion Laboratory used the IRTF 3-meter telescope to look at Jupiter in the near-infrared, but came up empty in finding any debris or scar.
Observations of Jupiter taken with the IRTF telescope and the SpeX guide camera. The dark circle indicates the location of the flash observed on September 10 2012 (credit: G. Orton, Jet Propulsion Laboratory)
“Most things in that part of the solar system are called Jupiter-family comets,” Orton said. “They’re ice balls that move in and have started co-orbiting around Jupiter.”
But Marchis said that since the object appears to have not entered the inner part of the planet atmosphere, the IR observation confirms that it was most likely a meteor.
And another scientist, Dr. Tony Phillips, an astronomer and the person behind Spaceweather.com, was interviewed on NPR’s Science Friday last week and he said the explosion was probably a small asteroid hitting Jupiter, but added, “We’ll probably never know for sure,”
But whatever it was, the event demonstrates how different astronomy is now from what it was just a few years ago.
“What is remarkable today is that amateur astronomers can detect such an event, and by using modern communication tools, the world of astronomers is instantaneously aware of it,” Marchis said. “Our solar system is full of those transient events (impact, volcanoes, storms), their early detection and monitoring is a great opportunity to characterize these planets or satellites, shining light on area of these bodies that cannot be seen when they are in their calm state.”
But there were a few dissenters, too. A small number of those posting on the astronomy community message boards said that since there wasn’t any scar visible, that the event really didn’t happen, and that Hall and Petersen were just seeing things. This may have been fueled by an initial discrepancy between Hall and Petersen’s timing report, but it was solved when Petersen found out that his clock was running 26 seconds fast. Others came up with different ideas about what it might have been, which included light from one of Jupiter’s moons, Adrastea, which was entering the eastern limb of Jupiter at about the same the time, to other, more wilder notions that might have involved alien spaceships.
But most astronomers concur the event did occur.
“Two observers reported the same event at almost the same time does not look to me that we could argue about the genuineness of the event,” Marchis said, noting that previous events like this have occurred in the past, with no impact scars. “Several events were observed in 1981 and 2010 as well and there were no scar as well. We can simply assume that the impactor was too small to reach the inner part of Jupiter atmosphere. It burned before reaching the lower deck because it was relatively small.”
Phillips mentioned that years ago, astronomers were skeptical that impacts like this happened in the Solar System today, but that all changed when Comet Shoemaker-Levy 9 impacted Jupiter in 1994, and with hundreds of telescopes watching the event, including the Hubble Space Telescope, “we got to see what a comet impact looked like, and analyze the chemical signature,” Phillips said.
But in this case, astronomers will very likely never know what caused the flash on Jupiter on September 10, 2012. But don’t worry – this won’t be the last time something like this happens. Marchis said in a comment on his blog that based on the current observations, it’s estimated that 50 meteors like this — or ones even more energetic — could be seen on Jupiter per year. We just don’t happen to catch very many of them in the act of occurring.
And if you’re excited about seeing explosions on other worlds, Jupiter isn’t the only place this happens. All our planets and moons get smacked occasionally, as the impact craters on the rocky bodies can attest. The best place to see this happening might be our own Moon. If you have a big enough telescope, you can join a group run through the Marshall Space Flight Center that has been watching the dark terrain of the Moon. They have observed over 260 explosions in the past 7 years.
Marchis said a better organized network of amateur astronomers watching Jupiter is important.
“I think it is important to organize a network of small telescopes that will monitor continuously Jupiter over a long period of time to be capable of estimating the flux of meteors in the outer part of the solar system, helping us to better estimate the age of icy satellite surface of Jupiter but also Saturn,” he said via email. “This is something we could do by combining professional and amateur astronomer efforts.”
Look for future updates as astronomers are trying to organize such a network.
Astrophotographer Ken Lord caught an airplane crossing in front of a setting crescent Moon in British Columbia, Canada. Credit: Ken Lord
The things you can see out your door! On a previous image in this sequence, Ken Lord from British Columbia, Canada said he stuck his head out the door and happened to see a great view of the setting crescent Moon, so he ran and got his camera, took a few shots, and then managed to capture an airplane crossing directly in front of the beautiful crescent. Ken notes the mountains on the horizon are on Vancouver Island.
He used a Canon T1i, 170mm, 0.8 second exposure, ISO3200, F5.6. See more of Ken’s images at his Flickr page.
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The overall winner in the Royal Observatory Greenwich’s annual Astronomy Photographer of the Year competition, M51 by Martin Pugh.
Want to see some absolutely gorgeous images of our Universe, all taken by amateur astrophotographers? Look no farther than the winners of the 4th annual Astronomy Photographer of the Year competition, held by the Royal Observatory Greenwich and Sky at Night Magazine. The winners were announced last night at the Royal Observatory, with a record number of entries received in 2012 from photographers from around the world.
“Many of the pictures have been taken with equipment that was out of the range of the amateur many years ago,” said Sir Patrick Moore, from the BBC’s Sky at Night, who is a judge in the competition. “I also like the choice of subjects: photographing people and the night skies is very difficult. The entrants have done very well indeed.”
The overall winner was from Australian Martin Pugh with his beautiful and crisp shot of M51, the Whirlpool Galaxy.
“The photographer has made the most of exceptionally good atmospheric conditions to capture an astonishing range of detail in his image of this iconic galaxy,” said Dr. Marek Kukula, the Royal Observatory Public Astronomer and a judge in the competition. “The beautiful spiral structure, dark lanes of dust, and the way the pink clouds of hydrogen really stand out – it’s a remarkable achievement by an amateur astronomer; one of the best images of M51 that I’ve seen.”
Here are more of the winning shots (and you can click on any of these images for the larger versions on Flickr or the ROG site):
The “People and Space” winner was Laurent Laveder from France, with “Facing Venus-Jupiter Close Conjunction.”
The “Our Solar System” category winner was Transit of Venus 2012 in Hydrogen-Alpha, by Chris Warren of the UK.
One of the year’s biggest astronomical events, the last transit of Venus for 105 years, was featured in numerous entries to the 2012 competition. The Our Solar System category was won by Chris Warren, for his fleeting image of the transit taken through a thin patch of cloud at Blackheath in London. F
Earth and Space category winner, “Orion, Taurus and the Pleiades” by Masahiro Miyasaka from Japan.
The winner of the Earth and Space category was Japan’s Masahiro Miyasaka for his image of Orion, Taurus and the Pleiades forming a dramatic backdrop above an eerie frozen landscape in Nagano.
“Young Astronomy Photographer of the Year” category winner was Jacob von Chorus from Canada
Young Astronomy Photographer of the Year accolade was won by 15 year old Jacob von Chorus from Canada, who impressed the judges with his beautiful shot of the Pleiades, showing many of the hot young stars which make up the cluster and the swirling wisps of blue-hued gas.
See more images of the winning and runner-up “Highly Commended” for each category at the ROG’s website.
The bubble nebula Abell 39. Credit: Adam Block/Mount Lemmon SkyCenter/University of Arizona
In theory, planetary nebulae should be simple and spherical, like the soap bubbles you made as a child. But only a rare few actually are! Here’s an example of one of the almost perfectly round planetary nebulae.
“Abell 39 is the quintessential bubble nebula with spherical form,” writes Adam Block, who is an avid astrophotographer, as well as the Public Observing Programs Coordinator at the Mount Lemmon Sky Center in Tucson, Arizona. “As this is a ‘true color”‘(broadband) image, it is difficult to show the limb brightening and the variations in the transparent shell like narrowband images do. I am glad to finally have this one in the collection of recent work.”
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A bright fireball slashes through curtains of aurorae shimmering above the mountains of northern Norway, captured on camera by Ole C. Salomonsen in the early hours of September 20.
“The fireball lasted for about 6-7 seconds until it vanished behind the mountain,” Ole recalls. “By the way, this mountain is over 1350 meters (4440 feet) high, and I am standing only 600 meters from the foot of it, so do not be fooled by the 14mm wide angle lens! There was some very distinguished blue colors surrounding the fireballs edges. Never ever seen anything big like this!”
The mountain at right is called “Otertinden”, and is about a 90 minute drive north of Tromsø, Norway — a hot spot for stunning auroral displays.
And if you’re wondering if the aurorae and the meteor are really in the same region of the atmosphere, well, they likely are. Incoming meteoroids begin to glow at around 70 to 100 km up, which is also about the same altitude that aurorae are visible.
Although Ole stated that this wasn’t the best aurora photo from the shoot, the fireball and its reflection in the still river made him feel this one “deserved to go first.”
The photo was taken with a Canon EOS 1D-X and a Nikon 14-24mm lens.
A great shot of the beautiful night-time sky by astrophotographer Sean Parker! Sean used a Canon 5DMKII, Nikkor 14-24MM F/2.8 at 20 seconds and ISO 1000, and processed the image with Adobe Lightroom. See more of Sean’s work at his Flickr page, or his G+ page.
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