Ukrainian amateur astronomer Gennady Borisov discovered a comet while participating in a star party: Amateur Astronomer Discovers Comet C/2013 N4 (Borisov) During a Star Party – universetoday.com.
Animation of Comet Borisov compiled from multiple images.
Credit: astronomamator.narod.ru/cometes/comet_anim.gif
The Hubble telescope has determined the true color of an exoplanet for the first time:
Hubble spots azure blue planet
Astronomers using the NASA/ESA Hubble Space Telescope have, for the first time, determined the true colour of a planet orbiting another star. If seen up close this planet, known as HD 189733b, would be a deep azure blue, reminiscent of Earth’s colour as seen from space.
But that’s where the similarities end. This “deep blue dot” is a huge gas giant orbiting very close to its host star. The planet’s atmosphere is scorching with a temperature of over 1000 degrees Celsius, and it rains glass, sideways, in howling 7000 kilometre-per-hour winds [1].
At a distance of 63 light-years from us, this turbulent alien world is one of the nearest exoplanets to Earth that can be seen crossing the face of its star. It has been intensively studied by Hubble and other telescopes, and its atmosphere has been found to be dramatically changeable and exotic, with hazes and violent flares (heic0720, heic1209). Now, this planet is the subject of an important first: the first measurement of an exoplanet’s visible colour.
“This planet has been studied well in the past, both by ourselves and other teams,” says Frédéric Pont of the University of Exeter, UK, leader of the Hubble observing programme and an author of this new paper. “But measuring its colour is a real first — we can actually imagine what this planet would look like if we were able to look at it directly.”
In order to measure what this planet would look like to our eyes, the astronomers measured how much light was reflected off the surface of HD 189733b — a property known as albedo [2].
HD 189733b is faint and close to its star. To isolate the planet’s light from this starlight, the team used Hubble’s Space Telescope Imaging Spectrograph (STIS) to peer at the system before, during, and after the planet passed behind its host star as it orbited. As it slipped behind its star, the light reflected from the planet was temporarily blocked from view, and the amount of light observed from the system dropped. But this technique also shows how the light changes in other ways — for example, its colour [3].
“We saw the brightness of the whole system drop in the blue part of the spectrum when the planet passed behind its star,” explains Tom Evans of the University of Oxford, UK, first author of the paper. “From this, we can gather that the planet is blue, because the signal remained constant at the other colours we measured.”
The planet’s azure blue colour does not come from the reflection of a tropical ocean, but is due to a hazy, turbulent atmosphere thought to be laced with silicate particles, which scatter blue light [4]. Earlier observations using different methods have reported evidence for scattering of blue light on the planet, but these most recent Hubble observations give robust confirming evidence, say the researchers.
HD 189733b presented a favourable case for these kinds of measurements as it belongs to a class of planets known as “hot Jupiters”. These massive planets are similar in size to the gas giants in the Solar System, but instead lie very close to their parent star — this size and proximity to their star make them perfect subjects for exoplanet hunting. We know that hot Jupiters are numerous throughout the Universe. As we do not have one close to home in our own Solar System, studies of planets like HD 189733b are important to help us understand these dramatic objects.
“It’s difficult to know exactly what causes the colour of a planet’s atmosphere, even for planets in the Solar System,” says Pont [5]. “But these new observations add another piece to the puzzle over the nature and atmosphere of HD 189733b. We are slowly painting a more complete picture of this exotic planet.”
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Artist’s impression of HD 188733b:
This illustration shows a “hot Jupiter” planet known as HD 189733b orbiting its star, HD 189733. The NASA/ESA Hubble Space Telescope measured the actual visible light colour of the planet, which is deep blue. This colour is not due to the presence of oceans, but is caused by the effects of a scorching atmosphere where silicate particles melt to make “raindrops” of glass that scatter blue light more than red light.
The planet HD 189733b was discovered in 2005 and is so close to its star that it is gravitationally “tidally locked”, so that one side always faces the star and the other side is always dark.
Because the planet is only 63 light-years from Earth, a visitor would see many of the same stars we see in our nighttime sky, though the constellation patterns would be different. Our Sun and the nearest star to our Sun, Alpha Centauri, appear as two faint stars near the centre of the image.
Credit:
NASA, ESA, and G. Bacon (AURA/STScI)
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This video shows where the Hubble telescope finds this star:
The Arkyd public telescope Kickstarter campaign, which exceeded its $1M goal by $505k, has been extended to allow more people to obtain space selfies and other benefits of contributions: ARKYD: A Space Telescope for Everyone – By Request: Limited Kickstarter Extension — July 9th – July 19th
You Can Still Pledge for the ARKYD Kickstarter!
After receiving numerous requests from folks that barely missed the campaign close, those in Europe that were not able to attend the live cast, and those that had Kickstarter payment snags, we’ve decided to provide select rewards through PayPal for a limited extension period. Simply choose your desired pledge level and quantity below. You’ll be taken to Paypal to checkout. For additional details on the campaign, translations, and the pledge rewards, visit our Kickstarter campaign page.
Pricing of our reward levels during this limited extension does not reflect an additional discount provided to our early Kickstarter backers.
If you’re in interested in our Education Packages (Education Supporter/Ambassador, etc.), click here to contact us. If you have other questions about the Kickstarter campaign or pledge levels, please click here.
A couple of videos:
Kickstarter Highlights:
Kickstarter Bloopers:
The Space Engine is
a freeware space simulation software that lets you explore the universe in three dimensions, starting from planet Earth to the most distant galaxies. Areas of the known universe are represented using actual astronomical data, while regions uncharted by astronomy are generated procedurally. Millions of galaxies, trillions of stars, countless planets – all available for exploration.
Here are a couple of videos describing the program:
Find more space sim links in the HobbySpace Space Simulations section.
The Hubble telescope captures a sequence of images of Comet ISON as moves towards the sun:
Comet ISON Brings Holiday Fireworks
This July Fourth the solar system is showing off some fireworks of its own.
Superficially resembling a skyrocket, comet ISON is hurtling toward the sun presently at a whopping 48,000 mph.
Its swift motion is captured in this time-lapse movie made from a sequence of pictures taken May 8, 2013, by NASA’s Hubble Space Telescope. At the time the images were taken, the comet was 403 million miles from Earth, between the orbits of Mars and Jupiter.
The movie shows a sequence of Hubble observations taken over a 43-minute span and compresses this into just five seconds. The comet travels 34,000 miles in this brief video, or 7 percent of the distance between Earth and the moon. The deep-space visitor streaks silently against the background stars.
Unlike a firework, the comet is not combusting, but in fact is pretty cold. Its skyrocket-looking tail is really a streamer of gas and dust bleeding off the icy nucleus, which is surrounded by a bright star-like-looking coma. The pressure of the solar wind sweeps the material into a tail, like a breeze blowing a windsock.
As the comet warms as it moves closer to the sun, its rate of sublimation (a process similar to evaporation in which solid matter transitions directly into gas) will increase. The comet will get brighter and its tail will grow longer. The comet is predicted to reach naked-eye visibility in November.
The comet is named after the organization that discovered it, the Russia-based International Scientific Optical Network.
This false-color, visible-light image was taken with Hubble’s Wide Field Camera 3.
The Hubble Space Telescope is a project of international cooperation between NASA and the European Space Agency. NASA’s Goddard Space Flight Center in Greenbelt, Md., manages the telescope. The Space Telescope Science Institute in Baltimore, Md., conducts Hubble science operations. STScI is operated by the Association of Universities for Research in Astronomy Inc., in Washington, D.C.
Related Links
› NASA’s Asteroids and Comet Watch website
› More on this image from the Space Telescope Science Institute: 1 | 2