Awesome VLT/ESO website The world's most advanced visible-light astronomical observatory. The Very Large Telescope array (VLT) is the flagship facility for European ground-based astronomy at the beginning of the third Millennium. It is the worlds most advanced optical instrument, consisting of four Unit Telescopes with main mirrors of 8.2m diameter and four movable 1.8m diameter Auxiliary Telescopes. The telescopes can work together, in groups of two or three, to form a giant interferometer, the ESO Very Large Telescope Interferometer, allowing astronomers to see details up to 25 times finer than with the individual telescopes. The light beams are combined in the VLTI using a complex system of mirrors in underground tunnels where the light paths must be kept equal to distances less than 1/1000 mm over a hundred metres. With this kind of precision the VLTI can reconstruct images with an angular resolution of milliarcseconds, equivalent to distinguishing the two headlights of a car at the distance of the Moon. The 8.2m diameter Unit Telescopes can also be used individually. With one such telescope, images of celestial objects as faint as magnitude 30 can be obtained in a one-hour exposure. This corresponds to seeing objects that are four billion (four thousand million) times fainter than what can be seen with the unaided eye. The large telescopes are named Antu, Kueyen, Melipal and Yepun.Telescopes and Instruments. The VLT instrumentation programme is the most ambitious programme ever conceived for a single observatory. It includes large-field imagers, adaptive optics corrected cameras and spectrographs, as well as high-resolution and multi-object spectrographs and covers a broad spectral region, from deep ultraviolet (300 nm) to mid-infrared (24 µm) wavelengths. The 8.2m diameter telescopes are housed in compact, thermally controlled buildings, which rotate synchronously with the telescopes. This design minimises any adverse effects on the observing conditions, for instance from air turbulence in the telescope tube, which might otherwise occur due to variations in the temperature and wind flow. The first of the Unit Telescopes, Antu, went into routine scientific operations on 1 April 1999. Today, all four Unit Telescopes and all four Auxiliary Telescopes are operational. The VLT has made an undisputed impact on observational astronomy. It is the most productive individual ground-based facility, and results from the VLT have led to the publication of an average of more than one peer-reviewed scientific paper per day. VLT contributes greatly to making ESO the most productive ground-based observatory in the world. The VLT has stimulated a new age of discoveries, with several notable scientific firsts, including the first image of an extrasolar planet (ESO 42/08), tracking individual stars moving around the supermassive black hole at the centre of the Milky Way (ESO 46/08), and observing the afterglow of the furthest known Gamma-Ray Burst. Although the four 8.2-metre Unit Telescopes can be combined in the VLTI, they are mostly used for individual observations and are only available for interferometric observations for a limited number of nights every year. But four smaller, dedicated Auxiliary Telescopes (ATs) are available to allow the VLTI to operate every night. The ATs are mounted on tracks and can be moved between precisely defined observing positions from where the beams of collected light are combined in the VLTI. The ATs are very unusual telescopes, as they are self-contained in their ultra-compact protective domes, and travel with their own electronics, ventilation, hydraulics and cooling systems. Each AT has a transporter that lifts the telescope and moves it from one position to the other. -YouTube
16 Comments
eric3579says...Milky Way time-lapse, taken from the Paranal Observatory. Home of the VLT.
alizarinsays...NASA just got it's ass beat!
jimnmssays...If it sees in visible light, how can it observe planets orbiting a black hole at the center of the Milky Way?
jimnmssays...I knew that building @ 2:17 looked familiar, it was used in The Quantum of Solace.
rkonesays...>> ^jimnms:
If it sees in visible light, how can it observe planets orbiting a black hole at the center of the Milky Way?
3:12 - It's watching the stars that orbit the black hole.
NicoleBeesays...^
To add to this, they observe what they can see (the stars) and estimate the black holes presence (mass, etc) based on how their orbits behave. They can't, of course, observe the black hole directly.
choggiesays...What would it take to be ABLE to observe the black hole planets directly is what he
may be asking..like, what kind of special suit or glasses??
jimnmssays...I don't know why I said planets, I meant stars. My point is, optical telescopes can't see the center of the Milky Way because we're far out on the edge and there's too much stuff in the way for us to see (optically) the center.
StukaFoxsays...Does it come with that crappy music?
deathcowsays...The center of the galaxy is observed in infrared, which passes right through obscuring dust clouds.
jimnmssays...Yes, I know how we can see into the center, but this video only mentions it's optical and visible light abilities. I didn't read that jumbled mess of a description, but looked up its specs on the ESO website and I see now that it does have some UV and near IR instruments available.
serosmegsays...What the hell is a metre?
Lithicsays...>> ^serosmeg:
What the hell is a metre?
http://lmgtfy.com/?q=metre&l=1
Opus_Moderandisays...Do they really need to say that it uses "state-of-the-art technology and instruments"? I mean, would something like this use second-hand, out-of date technology and instruments? And isn't the thing itself a "state-of-the-art instrument/technology"? Or am I just knit-picking.... ?
kulpimssays...*dead
siftbotsays...This video has been declared non-functional; embed code must be fixed within 2 days or it will be sent to the dead pool - declared dead by kulpims.
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