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World's Largest Virtual Optical Telescope Created

Posted by Soulskill on from the very-very-large-telescope dept.

erice writes "Astronomers in Chile linked four telescopes together to form a single virtual mirror 130 meters in diameter. Previous efforts had linked two telescopes but this is the first time that all four had been linked. 'The process that links separate telescopes together is known as interferometry. In this mode, the VLT becomes the biggest ground-based optical telescope on earth. Besides creating a gigantic virtual mirror, interferometry also greatly improves the telescope's spatial resolution and zooming capabilities.'"

7 of 57 comments (clear)

  1. Re:Optical interferometry? by Tastecicles · · Score: 3, Interesting

    the big problem I think is atmospherics. Getting two scopes to sync is the easy bit, getting them to dance out shimmer is difficult - the idea of interferometry (FYI) is to separate two points - difficult to do if they're moving in different directions in two (or four) locations at the same time. I reckon the best they could do here is to apply some sort of real time or maybe even predictive correction to the raw data (wind sensors?). Job even harder if the sensors are located a continent or two apart...

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  2. You too may be able to use their data. by wierdling · · Score: 4, Informative

    If you meet their requirements, you can register and download data from http://archive.eso.org/eso/eso_archive_main.html

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  3. Re:Optical interferometry? by Jesse_vd · · Score: 5, Informative

    The coolest thing I learned about the VLT is that it uses a laser to excite sodium particles 90km up in the atmosphere which creates a very faint 'star' at a very well-known distance. This reference point is used to make tiny adjustments to the mirrors to correct for atmospheric turbulence. These telescopes are not continents apart, they are all at the Paranal observatory in Chile. The light from each telescope is routed underground through equal-length tunnels to a central point to make one GIANT image. From wikipedia, "when all the telescopes are combined, the facility can achieve an angular resolution of about 0.001 arc-second. This is equivalent to roughly two metres at the distance of the Moon."

  4. Ehhh, not exactly. by Shag · · Score: 5, Informative

    It's not the equivalent of a 130-meter diameter mirror; it's the equivalent of that mirror with all but four 8.2-meter diameter pieces of it blacked out. Yes, you can get a sharper image using interferometry, but your total light-gathering area is 211 square meters, not 13,273 square meters. That's going to affect exposure times. But still, it's cool. :)

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    1. Re:Ehhh, not exactly. by jgardia · · Score: 3, Interesting

      Of course, you don't have the light gathering capacity of a 130m telescope, but you have the spatial resolution of a130m telescope.

  5. Re:Optical interferometry? by Shag · · Score: 4, Interesting

    I think Keck's got near-IR interfometry working. I very strongly suspect VLT is doing near-IR as well, but the article doesn't say. And this use of an optical chip instead of mirrors... dunno.

    I'm still waiting for the "Ohana" project that's supposed to link Keck 1+2, Subaru, Gemini, and maybe some of the 3-meter-class scopes near them through single-mode fiber. Maximum baseline if they build that? 800 meters, if I recall.

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  6. Re:Optical interferometry? by Ambitwistor · · Score: 3, Interesting

    Laser guide stars.