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Space Science

Binocular Space Telescope in the Works 30

museumpeace writes "ABCNews.com's technology pages have a story about NASA's plans to orbit a binocular telescope. Similar in concept to the Arizona telescope reported in /., this new variable baseline interferometer would be able to operate in the UV which is unavailable to terrestrial intstruments. The telescope would have the resolving power of a 120 foot diameter conventional telescope."
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Binocular Space Telescope in the Works

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  • The posts asking for what NASA is doing & wether this technique will reach space anytime soon are answered. Hubble 2.0 is very welcome ;)
    • I thought the JWST was supossed to be the "Hubble replacement" sometime next decade? It should also replace Spitzer, too.

      I'm not complaining! Let's get more telescopes above our atmosphere and look at the really interesting wavelengths!
  • Wow. (Score:2, Interesting)

    by francisew ( 611090 )

    This is pretty neat. Low IR interference would be great. There is so much heating/cooling from exposure/shadow cycling as satellites orbit the earth that I'd guess it have cyclic noise.

    They never really mentioned how high it would orbit.

    120 feet of rail is a lot. I wonder how prone it'll be to damage?

    The other telescope mentioned in the article seemed more interesting. Even though it's 1/4 the length, it had interferometers on board, and would probably be more useful for spectroscopic purposes.

    • Why not build a network of telescopes on the lunar surface? 14 days without solar exposure, a stable platform, no atmosphere... seems perfect.
      • by bitingduck ( 810730 ) on Thursday October 21, 2004 @06:56PM (#10593780) Homepage
        This seems to come up every time there's a space telescope article. The moon's not that great a place-- it's not as stable as you think, it's dirty, you get cycled in and out of full sunlight, and you have to land everything softly in a nasty gravity well without any atmosphere to use for braking.

        I'm going to have to put in a journal entry or something with why the moon is overrated for space telescopes.
        • "...you get cycled in and out of full sunlight..." Correct me if I am wrong but the moon does not spin on its axis. There is one permanantly dark side and one light. Which is why the "man on the moon" is always staring us down. :)
    • re: Wow (Score:3, Informative)

      by bitingduck ( 810730 )
      from looking at the sunshades, I'd guess that they plan to put Spirit in an L2 or earth trailing orbit, most likely L2-- it's close enough for high bandwidth communication, and it actually takes slightly less energy to get there than earth trailing.

      The other mission they mentioned, SIM, won't do spectroscopy. It's a very high precision interferometer for astrometry-- it will measure positions of stars to a microarcsecond or so. I can't remember the down to earth comparison information, but it will be cap
  • Why binocular? (Score:3, Interesting)

    by DrKyle ( 818035 ) on Thursday October 21, 2004 @06:10PM (#10593419)
    I can understand that getting a nice pair of binoculars gives you a sense of depth perception, but when you are looking at something 50 light years away does it really make a difference that you take measurements from 120 feet apart? I mean they could just time lapse the images and then compare them as the Earth is moving way faster, as we are moving around the sun at about 1800 kilometers per second. So really, what good is 120 feet?
    • If you really wanted near-simultaneous binocular imaging to capture some 'fast' event, maybe you would want two cameras in solar orbit. At Earth's orbital radius (9 light minutes), for example, that would give you about 18 light minutes of separation.

      I doubt there's a burning need for this, though.
    • Re:Why binocular? (Score:5, Informative)

      by Doctor Fishboy ( 120462 ) on Thursday October 21, 2004 @06:43PM (#10593687)
      but when you are looking at something 50 light years away does it really make a difference that you take measurements from 120 feet apart?

      It makes a big difference. The aim of the game is to increase your angular resolution, and interferometry is a way of combining two separate telescopes to get the angular resolution of one larger telescope.

      You cannot take one image, wait a few seconds to get a baseline, and then take another image. For the technique to work, you need the two images to be recorded with phase information, and for wavelengths shorter than radio waves, you cannot easily and efficiently do that.

      For a 8.4m single mirror, the 125 feet separation increases the angular resolution by a factor of 6.25. That's a very useful improvement.

      The problem is that the light from the two mirrors has to be cophased to within 1/10 of a single wavelength of UV light. Those tolerances are absolute bastards to achieve, even in outer space.

      Dr Fish

      • The problem is that the light from the two mirrors has to be cophased to within 1/10 of a single wavelength of UV light. Those tolerances are absolute bastards to achieve, even in outer space.

        Spirit is intended to be in the IR, which makes the pathlength control a bit easier, and without knowing details of Spirit, I'd guess that the pathlength control requirements are a lot easier than they are on SIM, which is doing precision astrometry in the visible.
    • Re:Why binocular? (Score:5, Informative)

      by deglr6328 ( 150198 ) on Thursday October 21, 2004 @06:44PM (#10593697)
      They're not really using it for "binocular vision", they're using it to do "aperture synthesis" or optical interferometry [wikipedia.org] where the separation of two telescopes whose optical paths are combined (with sub wavelength (like 550nanometers for green) precision maintenance of the optical path) effectively allows it to have the resolution of one humongous telescope whose mirror is as big as the separation between the two smaller telescopes or "baseline". Radio telescopes are combined in the VLBA or very long baseline array like this, except that they are not connected to eachother as they make observations (at least not until recently [universetoday.com]) so they record the phase of the radio waves as correlated to a high precision atomic clock standard, then combine the (usually terabytes of) data from each dish later on supercomputers. None of this comes across terribly clearly in the article because the journalist who wrote it is an idiot("SPIRIT telescope since it will be detecting infrared light, which is a light form of heat." uhhhh yeah.).
    • A lot. They are talking about interferometry, not mere binocular vision. Look it up.
  • This a great way to ruin Earth's reputation, as a peeping tom. "I swear we weren't looking into your showers, aliens!"
  • This may be a low point for manned expoloration of the universe - but we are certainly at one of histories high points for telescopic exploration of the universe:

    -relatively cheap CCD's mean that even amateurs can make great discoveries
    -currently have orbiting telescopes covering a good chunk of the spectrum
    -best is yet to come:
    Kepler, SIM, James Webb Space Telescope, Terrestial Planet Finder, proposed earth based 100 meter optical telescopes, not to mention far off items like the Terrestial Planet Ima

Solutions are obvious if one only has the optical power to observe them over the horizon. -- K.A. Arsdall

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