Space Hubble Telescope News

NASA's James Webb Space Telescope to Reveal Secrets of the Red Planet

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Webb will investigate how Mars went from wet to dry

Mars rovers and orbiters have found signs that Mars once hosted liquid water on its surface. Much of that water escaped over time. How much water was lost, and how does the water that’s left move from ice to atmosphere to soil? During its first year of operations, NASA’s James Webb Space Telescope will seek answers. Webb also will study mysterious methane plumes that hint at possible geological or even biological activity.

(More at HubbleSite.com)
 
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Science Release: Hubble observes pitch black planet

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Astronomers have discovered that the well-studied exoplanet WASP-12b reflects almost no light, making it appear essentially pitch black. This discovery sheds new light on the atmospheric composition of the planet and also refutes previous hypotheses about WASP-12b’s atmosphere. The results are also in stark contrast to observations of another similarly sized exoplanet.

(More at HubbleSite.com)
 
Improved Hubble Yardstick Gives Fresh Evidence for New Physics in the Universe

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New Survey Is the Most Precise Measurement of the Universe's Expansion Rate

The good news: Astronomers have made the most precise measurement to date of the rate at which the universe is expanding since the big bang. The possibly unsettling news: This may mean that there is something unknown about the makeup of the universe. The new numbers remain at odds with independent measurements of the early universe's expansion. Is something unpredicted going on in the depths of space?

Astronomers have come a long way since the early 1900s when they didn't have a clue that we lived in an expanding universe. Before this could be realized, astronomers needed an accurate celestial measuring stick to calculate distances to far-flung objects. At that time, faint, fuzzy patches of light that we now know as galaxies were thought by many astronomers to be objects inside our Milky Way. But, in 1913, Harvard astronomer Henrietta Leavitt discovered unique pulsating stars that maintain a consistent brightness no matter where they reside. Called Cepheid variables, these stars became reliable yardsticks for astronomers to measure cosmic distances from Earth.

A few years later, building on Leavitt's pioneering work, astronomer Edwin Hubble found a Cepheid variable star in the Andromeda nebula. By measuring the star's tremendous distance, Hubble proved that the nebula was really an entire galaxy — a separate island of billions of stars far outside our Milky Way.

He went on to find many more galaxies across space. When he used Cepheid variables to measure galaxy distances, he found that the farther away a galaxy is, the faster it appears to be receding from us. This led him to the monumental discovery that our universe is uniformly expanding in all directions. And, even the universe's age, which today we know is 13.8 billion years, could be calculated from the expansion rate.

Little would Leavitt have imagined that her Cepheid variable work would become the solid bottom rung of a cosmic distance ladder of interlinked techniques that would allow for measurements across billions of light-years.

The latest Hubble telescope results that solidify the cosmic ladder confirm a nagging discrepancy showing the universe is expanding faster now than was expected from its trajectory seen shortly after the big bang. Researchers suggest that there may be new physics at work to explain the inconsistency. One idea is that the universe contains a new high-speed subatomic particle. Another possibility is that dark energy, already known to be accelerating the cosmos, may be shoving galaxies away from each other with even greater — or growing — strength.

The Hubble study extends the number of Cepheid stars analyzed to distances of up to 10 times farther across our galaxy than previous Hubble results. The new measurements help reduce the chance that the discrepancy in the values is a coincidence to 1 in 5,000.

(More at HubbleSite.com)
 
The Aesthetics of Hubble Images Showcased at Walters Art Museum

Just as the early explorers ventured ever further into the oceans, recording the wonders they encountered, today's astronomers are probing farther and deeper into space, mapping the distant landscape of the universe. "Mapping the Cosmos: Images from the Hubble Space Telescope," brings together over 20 Hubble images as part of the Walters Art Museum exhibit "Maps: Finding Our Place in the World." The exhibit was created through a unique collaboration between the Walters, scientists and experts at the Space Telescope Science Institute (STScI), and Professor Elizabeth Rodini and her students in the "Behind the Scenes at the Walters Art Museum" class at Johns Hopkins University. Seven undergraduate students and Professor Rodini worked with STScI professionals to choose the images and design the two-room exhibit. The students handled the images in the Manuscripts Gallery, while STScI professionals selected images for the museum's Palazzo Courtyard.

(More at HubbleSite.com)
 
NASA Finds a Large Amount of Water in an Exoplanet's Atmosphere

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Researchers Surprised by How Much Water Found in Atmosphere of WASP-39b

Using Hubble and Spitzer space telescopes, scientists studied the “hot Saturn” called WASP-39b — a hot, bloated, Saturn-mass exoplanet located about 700 light-years from Earth. By dissecting starlight filtering through the planet’s atmosphere into its component colors, the team found clear evidence for a large amount of water vapor. In fact, WASP-39b has three times as much water as Saturn does. Although the researchers predicted they’d see water, they were surprised by how much they found. This suggests that the planet formed farther out from the star, where it was bombarded by a lot of icy material. Because WASP-39b has so much more water than Saturn, it must have formed differently from our famously ringed neighbor.

(More at HubbleSite.com)
 
Science Release: Hubble observes exoplanet atmosphere in more detail than ever before

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An international team of scientists has used the NASA/ESA Hubble Space Telescope to study the atmosphere of the hot exoplanet WASP-39b. By combining this new data with older data they created the most complete study yet of an exoplanet atmosphere. The atmospheric composition of WASP-39b hints that the formation processes of exoplanets can be very different from those of our own Solar System giants.

(More at HubbleSite.com)
 
Hubble Finds Huge System of Dusty Material Enveloping the Young Star HR 4796A

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Newly discovered, vast, complex dust structure, about 150 billion miles across, envelopes the young star HR 4796A

Finding lots of dust around stars may not sound like anything astronomers would get excited about. The universe is a dusty place. But dust around a young star can be evidence that planet formation is taking place. This isn’t a new idea. In 1755, German Philosopher Immanuel Kant first proposed that planets formed around our Sun in a debris disk of gas and dust. Astronomers imagined that this process might take place around other stars.

They had to wait until the early 1980s for the first observational evidence for a debris disk around any star to be uncovered. An edge-on debris disk was photographed around the southern star Beta Pictoris. Beta Pictoris remained the poster child for such debris systems until the late 1990s when the Hubble Space Telescope’s second-generation instruments, which had the capability of blocking out the glare of a central star, allowed many more disks to be photographed. Now, they are thought to be common around stars. About 40 such systems have been imaged to date, largely by Hubble.

In this recent image, Hubble uncovers a vast, complex dust structure, about 150 billion miles across, enveloping the young star HR 4796A. A bright, narrow inner ring of dust is already known to encircle the star, based on much earlier Hubble photographs. It may have been corralled by the gravitational pull of an unseen giant planet. This newly discovered huge dust structure around the system may have implications for what this yet-unseen planetary system looks like around the 8-million-year-old star, which is in its formative years of planet construction.

(More at HubbleSite.com)
 
Photo Release: A peculiar galactic clash

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Galaxies are not static islands of stars — they are dynamic and ever-changing, constantly on the move through the darkness of the Universe. Sometimes, as seen in this spectacular Hubble image of Arp 256, galaxies can collide in a crash of cosmic proportions.

(More at HubbleSite.com)
 
NASA's James Webb Space Telescope to Reveal Secrets of the Red Planet

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Webb will investigate how Mars went from wet to dry

Mars rovers and orbiters have found signs that Mars once hosted liquid water on its surface. Much of that water escaped over time. How much water was lost, and how does the water that’s left move from ice to atmosphere to soil? During its first year of operations, NASA’s James Webb Space Telescope will seek answers. Webb also will study mysterious methane plumes that hint at possible geological or even biological activity.

(More at HubbleSite.com)
 
NASA's Webb Telescope to Investigate Mysterious Brown Dwarfs

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Strange Star or Rogue Planet? Brown Dwarfs Defy Definition

Brown dwarfs are often described as failed stars. However, this label misrepresents the true nature of these unusual objects. They may live in the fuzzy boundary between planets and stars, but it’s that exact ambiguity that makes them so intriguing to scientists. NASA’s James Webb Space Telescope will study brown dwarfs to measure their properties and probe their origins.

(More at HubbleSite.com)
 
NASA's Webb Telescope to Make a Splash in the Search for Interstellar Water

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NASA's Webb Telescope Will Map Cosmic Ices

Most of the water in the universe floats in vast reservoirs called molecular clouds. It coats the surface of dust grains, turning them into cosmic snowflakes. When stars and planets form, those snowflakes get swept up, delivering key ingredients for life. NASA’s James Webb Space Telescope will map water and other cosmic ices to gain new insights into these building blocks for habitable planets.

(More at HubbleSite.com)
 
Arrested Development: Hubble Finds Relic Galaxy Close to Home

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Ghostly-Looking Galaxy Stopped Making Stars Long Ago

The adventuring cinema archeologist Indiana Jones would be delighted to find a long-sought relic in his own backyard. Astronomers have gotten lucky enough to achieve such a quest. They identified a very rare and odd assemblage of stars that has remained essentially unchanged for the past 10 billion years. The diffuse stellar island provides valuable new insights into the origin and evolution of galaxies billions of years ago.

As far as galaxy evolution goes, this object is clearly a case of “arrested development.” The galaxy, NGC 1277, started its life with a bang long ago, ferociously churning out stars 1,000 times faster than seen in our own Milky Way today. But it abruptly went quiescent as the baby boomer stars aged and grew ever redder. Though Hubble has seen such “red and dead” galaxies in the early universe, one has never been conclusively found nearby. Where the early galaxies are so distant, they are just red dots in Hubble deep-sky images. NGC 1277 offers a unique opportunity to see one up close and personal.

The telltale sign of the galaxy’s state lies in the ancient globular clusters that swarm around it. Massive galaxies tend to have both metal-poor (appearing blue) and metal-rich (appearing red) globular clusters. The red clusters are believed to form as the galaxy forms, while the blue clusters are later brought in as smaller satellites are swallowed by the central galaxy. However, NGC 1277 is almost entirely lacking in blue globular clusters. The red clusters are the strongest evidence that the galaxy went out of the star-making business long ago. However, the lack of blue clusters suggests that NGC 1277 never grew further by gobbling up surrounding galaxies.

(More at HubbleSite.com)
 
Hubble's Celestial Snow Globe

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A Hubble Space Telescope View of Globular Cluster M79

It's beginning to look a lot like the holiday season in this NASA Hubble Space Telescope image of a blizzard of stars, which resembles a swirling snowstorm in a snow globe. The stars are residents of the globular star cluster Messier 79, or M79, located 41,000 light-years from Earth, in the constellation Lepus. The cluster is also known as NGC 1904.

(More at HubbleSite.com)
 
Hubble Sees a Horsehead of a Different Color

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Unlike other celestial objects there is no question how the Horsehead Nebula got its name. This iconic silhouette of a horse's head and neck pokes up mysteriously from what look like whitecaps of interstellar foam. The nebula has graced astronomy books ever since its discovery over a century ago. But Hubble's infrared vision shows the horse in a new light. The nebula, shadowy in optical light, appears transparent and ethereal when seen at infrared wavelengths. This pillar of tenuous hydrogen gas laced with dust is resisting being eroded away by the radiation from a nearby star. The nebula is a small part of a vast star-forming complex in the constellation Orion. The Horsehead will disintegrate in about 5 million years.

As part of Hubble's 23rd anniversary Horsehead Nebula release, amateur astronomers around the world were invited to send in their Horsehead Nebula photos. Visit the Hubble Heritage Horsehead Image Release (Hubble Heritage) to view the contributions via Flickr and Tumblr and to send us your own image.

(More at HubbleSite.com)
 
Hubble Solves Cosmic 'Whodunit' with Interstellar Forensics

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Winner Declared in Tug-of-War Between Two Satellite Galaxies of the Milky Way

In a cosmic tug-of-war between two dwarf galaxies orbiting the Milky Way, only NASA’s Hubble Space Telescope can see who’s winning. The players are the Large and Small Magellanic Clouds, and as they gravitationally tug at each other, one of them has pulled out a huge amount of gas from its companion. This shredded and fragmented gas, called the Leading Arm, is being devoured by the Milky Way and feeding new star birth in our galaxy. But which dwarf galaxy is doing the pulling, and whose gas is now being feasted upon? Scientists used Hubble’s ultraviolet vision to chemically analyze the gas in the Leading Arm and determine its origin. After years of debate, we now have the answer to this “whodunit” mystery.

(More at HubbleSite.com)
 
Additional Kepler Data Now Available to All Planet Hunters

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The Space Telescope Science Institute in Baltimore, Md., is releasing 12 additional months worth of planet-searching data meticulously collected by one of the most prolific planet-hunting endeavors ever conceived, NASA's Kepler Mission.

As of Oct. 28, 2012, every observation from the extrasolar planet survey made by Kepler since its launch in 2009 through June 27, 2012, is available to scientists and the public. This treasure-trove contains more than 16 terabytes of data and is housed at the Barbara A. Mikulski Archive for Space Telescopes, or MAST, at the Space Telescope Science Institute. MAST is a huge data archive containing astronomical observations from 16 NASA space astronomy missions, including the Hubble Space Telescope. It is named in honor of Maryland U.S. Senator Barbara A. Mikulski.

(More at HubbleSite.com)
 
Astronomers Unveil Colorful Hubble Photo Gallery

A vibrant celestial photo album of some of NASA Hubble Space Telescope's most stunning views of the universe is being unveiled today on the Internet. Called the Hubble Heritage Program, this technicolor gallery is being assembled by a team of astronomers at Hubble's science operations center, the Space Telescope Science Institute in Baltimore, Md. The four images released today are (top row, left to right) spiral galaxy NGC 7742, Saturn, and (bottom row, left to right) the Sagittarius Star Cloud and the Bubble Nebula.

(More at HubbleSite.com)
 
Science Release: Hubble finds first galaxy in the local Universe without dark matter

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An international team of researchers using the NASA/ESA Hubble Space Telescope and several other observatories have, for the first time, uncovered a galaxy in our cosmic neighbourhood that is missing most — if not all — of its dark matter. This discovery of the galaxy NGC 1052-DF2 challenges currently-accepted theories of and galaxy formation and provides new insights into the nature of dark matter. The results are published in Nature.

(More at HubbleSite.com)
 
Kepler Solves Mystery of Fast and Furious Explosions

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Space Observatory Captures the Details of an Unusual Stellar Detonation

The universe is so huge that it's estimated that a star explodes as a supernova once every second. Astronomers capture a small fraction of these detonations because they are comparatively short-lived, like fireflies flickering on a summer evening. After skyrocketing to a sudden peak in brightness, a supernova can take weeks to slowly fade away.

For the past decade astronomers have been befuddled by a more curious "flash-in-the-pan" that pops up and then disappears in just a few days, not weeks. It's called a Fast-Evolving Luminous Transient (FELT). Only a few FELTs have been seen in telescopic sky surveys because they are so brief.

Then along came NASA's Kepler Space Telescope that caught a FELT in the act. Kepler's outstanding ability to precisely record changes in the brightness of celestial objects was designed to look for planets across our galaxy. But a great spinoff from the observatory is to go supernova hunting too.

Kelper's unique capabilities captured the properties of the blast. This allowed astronomers to exclude a range of theories about how FELTs happen, and converge on a plausible model. They conclude that the brief flash is from a vast shell of material around a supernova that abruptly lights up when the supernova blast wave crashes into it.

(More at HubbleSite.com)
 
Dark Matter Goes Missing in Oddball Galaxy

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Galaxy was expected to contain 400 times more dark matter than observations show

Grand, majestic spiral galaxies like our Milky Way are hard to miss. Astronomers can spot these vast complexes because of their large, glowing centers and their signature winding arms of gas and dust, where thousands of glowing stars reside.

But some galaxies aren't so distinctive. They are big, but they have so few stars for their size that they appear very faint and diffuse. In fact, they are so diffuse that they look like giant cotton balls.

Observations by NASA's Hubble Space Telescope of one such galaxy have turned up an oddity that sets it apart from most other galaxies, even the diffuse-looking ones. It contains little, if any, dark matter, the underlying scaffolding upon which galaxies are built. Dark matter is an invisible substance that makes up the bulk of our universe and the invisible glue that holds visible matter in galaxies — stars and gas — together.

Called NGC 1052-DF2, this "ghostly" galaxy contains at most 1/400th the amount of dark matter that astronomers had expected. How it formed is a complete mystery. The galactic oddball is as large as our Milky Way, but the galaxy had escaped attention because it contains only 1/200th the number of stars as our galaxy.

Based on the colors of its globular clusters, NGC 1052-DF2 is about 10 billion years old. It resides about 65 million light-years away.

(More at HubbleSite.com)
 
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