• Heaviest Stellar Black Hole Discovered in Nearby Galaxy

    • by ~summer~
    • Filed Under: Uncategorized
    • Date: Tue, Nov 6, 2007

    I had another long work day with an early flight, long meeting, late flight. Whoa is me, my carbon footprint! So, here is a throw back to one of my earlier blog habits, a posting of imagery from NASA’s Chandra Observatory.

    The main component of this graphic is an artist’s representation of M33 X-7, a binary system in the nearby galaxy M33. In this system, a black hole is revolving around a star about 70 times more massive than the Sun (large blue object). This black hole is almost 16 times the Sun’s mass, a record for black holes created from the collapse of a giant star. Other black holes at the centers of galaxies are much more massive, but this object is the record-setter for a so-called “stellar mass” black hole.

    In the illustration, an orange disk surrounds the black hole. This depicts material, fed by a wind from the blue companion star, which has been swept into orbit around the black hole. Rather than flowing unimpeded and uniformly into space, wind from the star is pulled towards the black hole by its powerful gravity. The wind that does make it past the black hole is disrupted, causing turbulence and ripples beyond the disk. The companion star itself is also distorted by the gravity from the black hole. The star is stretched slightly in the direction of the black hole, causing it to become less dense in this region and to appear darker.

    The inset shows a composite of data from NASA’s Chandra X-ray Observatory (blue) and the Hubble Space Telescope. The bright objects in the inset image are young, massive stars around M33 X-7, and the bright, blue Chandra source is M33 X-7 itself. X-rays from Chandra reveals how long the black hole is eclipsed by the companion star, which indicates the size of the companion. Observations by the Gemini telescope on Mauna Kea, Hawaii track the orbital motion of the companion around the black hole, giving information about the mass of the two members of the binary. Other observed properties of the binary were also used to help constrain the mass estimates of both the black hole and its companion.

    The main component of this graphic is an artist’s representation of M33 X-7, a binary system in the nearby galaxy M33. In this system, a black hole is revolving around a star about 70 times more massive than the Sun (large blue object). This black hole is almost 16 times the Sun’s mass, a record for black holes created from the collapse of a giant star. Other black holes at the centers of galaxies are much more massive, but this object is the record-setter for a so-called “stellar mass” black hole.

    In the illustration, an orange disk surrounds the black hole. This depicts material, fed by a wind from the blue companion star, which has been swept into orbit around the black hole. Rather than flowing unimpeded and uniformly into space, wind from the star is pulled towards the black hole by its powerful gravity. The wind that does make it past the black hole is disrupted, causing turbulence and ripples beyond the disk. The companion star itself is also distorted by the gravity from the black hole. The star is stretched slightly in the direction of the black hole, causing it to become less dense in this region and to appear darker.

    The inset shows a composite of data from NASA’s Chandra X-ray Observatory (blue) and the Hubble Space Telescope. The bright objects in the inset image are young, massive stars around M33 X-7, and the bright, blue Chandra source is M33 X-7 itself. X-rays from Chandra reveals how long the black hole is eclipsed by the companion star, which indicates the size of the companion. Observations by the Gemini telescope on Mauna Kea, Hawaii track the orbital motion of the companion around the black hole, giving information about the mass of the two members of the binary. Other observed properties of the binary were also used to help constrain the mass estimates of both the black hole and its companion.

    Credits:
    Illustration: NASA/CXC/M.Weiss;
    X-ray: NASA/CXC/CfA/P.Plucinsky et al.
    Optical: NASA/STScI/SDSU/J.Orosz et al.


  • ashes and snow

    • by ~summer~
    • Filed Under: Uncategorized
    • Date: Thu, Oct 11, 2007


    this image is from Gregory Colbert’s work, Ashes and Snow,
    which I stumbled upon while perusing the delightful blog persisting stars
    which helped to instill in me a peace and serenity
    that I am lately seeking


  • Galaxy Collision

    • by ~summer~
    • Filed Under: Uncategorized
    • Date: Thu, Apr 5, 2007

    Astronomers think that there are enormous black holes at the centers of most, if not all, galaxies. These black holes, which can be millions or even billions of times more massive than the Sun, can greatly affect the galaxy and the environments around them. One way such black holes shape their surroundings is by generating powerful jets of high-energy particles. The jets, which are bright in radio waves, have been seen to push around the hot gas that envelopes the galaxy. When this happens, astronomers can detect huge cavities and powerful shock fronts in the hot, X-ray emitting gas.

    However, the opposite scenario is apparently unfolding in the galaxy known as 3C442A. X-ray data from NASA’s Chandra X-ray Observatory and radio observations from the NSF’s Very Large Array show that the hot gas (blue) in the middle of 3C442A is pushing apart the radio-bright gas (orange). The inner sections of the radio structure are sharp and concave, which is consistent with the idea that the X-ray bright gas is sweeping the radio-emitting gas aside. This is the first convincing evidence for such a role reversal.


  • Stellar Debris in the Large Magellanic Cloud

    • by ~summer~
    • Filed Under: Uncategorized
    • Date: Wed, Jan 24, 2007


    From the Chandra X-Ray Observatory

    This is a composite image of N49, the brightest supernova remnant in optical light in the Large Magellanic Cloud. The Chandra X-ray image (blue) shows million-degree gas in the center. Much cooler gas at the outer parts of the remnant is seen in the infrared image from Spitzer (red). While astronomers expected that dust particles were generating most of the infrared emission, the study of this object indicates that much of the infrared is instead generated in heated gas.

    The unique filamentary structure seen in the optical image by Hubble (white & yellow) has long set N49 apart from other well understood supernova remnants, as most supernova remnants appear roughly circular in visible light. Recent mapping of molecular clouds suggests that this supernova remnant is expanding into a denser region to the southeast, which would cause its asymmetrical appearance. This idea is confirmed by the Chandra data. Although X-rays reveal a round shell of emission, the X-rays also show brightening in the southeast, confirming the idea of colliding material in that area.


  • There’s a Comet in the Sky

    • by ~summer~
    • Filed Under: Uncategorized
    • Date: Mon, Jan 8, 2007

  • jimi

    • by ~summer~
    • Filed Under: Uncategorized
    • Date: Fri, Oct 27, 2006

    sometimes these songs that somebody sang seem to mean something
    more than they’re saying
    like they impose some greater understanding upon us
    more than our earthly presence could perceive

    kinda like a Jimi Hendrix song
    in the rain
    on an electric guitar


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