viernes, 12 de enero de 2018

Hubble Yields New Discoveries at the Winter AAS Meeting | NASA

Hubble Yields New Discoveries at the Winter AAS Meeting | NASA



Hubble Yields 

New Discoveries 

at the Winter AAS Meeting

Astronomers gathering at the 231st meeting of the American Astronomical Society at National Harbor in Washington, D.C., will have a chance to learn about groundbreaking new research with NASA’s Hubble Space Telescope. The new science discoveries with the Earth-orbiting observatory stretch from nearby star-forming regions, to the heart of our Milky Way galaxy, to the horizon of the observable universe. All of these findings exploit the telescope’s extraordinary resolution, sensitivity, and broad wavelength capabilities to gather information about the universe from space-based observations.

Unprecedented Fly-through Combines the Visible and Infrared Vision of the Hubble and Spitzer Space Telescopes

By combining the visible and infrared capabilities of the Hubble and Spitzer space telescopes, astronomers and visualization specialists from NASA’s Universe of Learning program have created a spectacular, three-dimensional, fly-through movie of the magnificent Orion Nebula, a nearby stellar nursery. Using actual scientific data along with Hollywood techniques, a team at the Space Telescope Science Institute in Baltimore, Maryland, and the Caltech/IPAC in Pasadena, California, has produced the best and most detailed multi-wavelength visualization yet of the Orion Nebula. The two-minute movie allows viewers to glide through the picturesque star-forming region and experience the universe in an exciting new way.
By combining the visible and infrared capabilities of the Hubble and Spitzer space telescopes, astronomers and visualization specialists from NASA’s Universe of Learning program have created a spectacular, three-dimensional, fly-through movie of the magnificent Orion Nebula, a nearby stellar nursery. Using actual scientific data along with Hollywood techniques, a team at the Space Telescope Science Institute in Baltimore, Maryland, and the Caltech/IPAC in Pasadena, California, has produced the best and most detailed multi-wavelength visualization yet of the Orion Nebula.
Credits: Space Telescope Science Institute
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Brown Dwarfs Everywhere

In an unprecedented deep survey for small, faint objects in the Orion Nebula, astronomers using Hubble have uncovered the largest population yet of brown dwarfs sprinkled among newborn stars. Brown dwarfs are more massive than planets but too small to generate energy like stars. Brown dwarfs provide important clues to understanding how stars and planets form, and may be among the most common objects in our galaxy. Astronomers used Hubble to identify them by the presence of water in brown dwarf atmospheres, that are so cold that water vapor forms. Water is a clear signature of substellar objects.  The water signature cannot be easily seen from Earth, due to the absorbing effects of water vapor in our own atmosphere.
black and white image of cloud, with circles indicating stars
This image is part of a Hubble Space Telescope survey for low-mass stars, brown dwarfs, and planets in the Orion Nebula. Each symbol identifies a pair of objects, which can be seen in the symbol’s center as a single dot of light. Special image processing techniques were used to separate the starlight into a pair of objects. The thicker inner circle represents the primary body, and the thinner outer circle indicates the companion. The circles are color-coded: Red for a planet; orange for a brown dwarf; and yellow for a star. Located in the upper left corner is a planet-planet pair in the absence of a parent star. In the middle of the right side is a pair of brown dwarfs. The portion of the Orion Nebula measures roughly 4 by 3 light-years.
Credits: NASA , ESA, and G. Strampelli (STScI)
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Archeology of the Milky Way’s Central Bulge

A new analysis of about 10,000 normal Sun-like stars in the central hub of the Milky Way reveals that our galaxy’s bulge is a dynamic environment of stars of various ages zipping around at different speeds. This conclusion is based on nine years’ worth of archival data from Hubble. This study of the complicated, chaotic heart of our Milky Way may provide new clues to the evolution of our galaxy and its merger with smaller satellite galaxies.  Currently, only Hubble has sharp enough resolution to simultaneously measure the motions of thousands of Sun-like stars at the galaxy bulge's distance from Earth over time. Hubble gives a narrow, pencil-beam view of the galaxy’s core to unveil thousands more stars than those spotted in earlier studies.
Dense field of stars in many colors
A new analysis of about 10,000 normal Sun-like stars in the Milky Way's galactic bulge reveals that our galaxy's hub is a dynamic environment of variously aged stars zipping around at different speeds, like travelers bustling about a busy airport. Only Hubble has sharp enough resolution to simultaneously measure the motions of thousands of Sun-like stars at the distance of the galaxy's bulge from Earth.
Credits: NASA, ESA, and T. Brown (STScI)
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Zoom Lens in Space Stretches Image of One of Farthest Galaxies Yet Seen

An intensive survey deep into the universe by NASA’s Hubble and Spitzer space telescopes has yielded the proverbial needle-in-a-haystack: the farthest galaxy yet seen in an image that has been stretched and amplified by a phenomenon called gravitational lensing. The embryonic galaxy named SPT0615-JD existed when the universe was just 500 million years old. Though a few other primitive galaxies have been seen at this early epoch, they have essentially all looked like red dots given their small size and tremendous distances. However, in this case, the gravitational field of a massive foreground galaxy cluster not only amplified the light from the background galaxy but also smeared the image into an arc. No other candidate galaxy has been found at such a great distance that also gives spatial information about the size and mass of such an embryonic galaxy.
field of galaxies with inset red galaxy
This Hubble view shows galaxy cluster SPT-CL J0615-5746. Embedded in the photo is an arc-like structure that is not only the amplified image of a background galaxy, but an image that has been smeared into a crescent shape. Astronomers estimate the diminutive galaxy weighs in at no more than 3 billion solar masses and it is less than 2,500 light-years across.
Credits: NASA, ESA, and B. Salmon (STScI)
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Flickering Black Hole Caught by Hubble and Chandra

Astronomer using NASA’s Hubble and Chandra space telescopes have caught a supermassive black hole in a distant galaxy snacking on gas and then “burping” out light – not once, but twice. The galaxy under study, known as J1354, is about 900 million light-years from Earth.  The supermassive black hole under study appears to have blasted out jets of bright light from gas it accreted. This happened twice in the past 100,000 years. While astronomers have predicted such objects can flicker on and off as a result of gas-feeding events, this is the first time one has convincingly been caught in the act. The black hole is being fed by material from the companion galaxy. The material swirls toward the center of J1354 and then is being devoured by the supermassive black hole.
Galaxy J1354.
Galaxy J1354.
Credits: X-ray NASA/CXC/University of Colorado/J. Comerford et al.; Optical: NASA/STScI
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For more information about Hubble, visit:

Ray Villard
Space Telescope Science Institute, Baltimore, Md.
villard@stsci.edu
410-338-4514
Felicia Chou
NASA Headquarters, Washington, DC
Felicia.chou@nasa.gov
202-358-0257
Last Updated: Jan. 11, 2018
Editor: Karl Hille

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