Largest Lens Ever Discovered

K Tanmay writes "A team of Astronomers have found a natural lens capable of resolving details as fine as 10 microarcseconds across - equivalent to seeing a sugar cube on the Moon, from Earth. The lens comprises of a cloud of interstellar gas, and works on the principle of scintillation; where the clumpiness inside a cloud of gas creates a density change thus bending and focusing the light. This technique, dubbed 'Earth-Orbit Synthesis', will be first used to study black holes in distant quasars, so don't expect spectacular wallpaper replacing images. There's also an interview with Dr. Hayley Bignall, an astronomer from the Joint Institute for Very Long Baseline Interferometry in Europe (JIVE), where she discusses the concept of using interstellar scintillation to get observations that we could never measure from here on earth." Update: 02/22 18:23 GMT by T : That wikipedia link had led to the wrong place; here's the definition for arcsecond if you still want to read it.

wallpaper?

[evilWurst]

"This technique, dubbed 'Earth-Orbit Synthesis', will be first used to study black holes in distant quasars, so don't expect spectacular wallpaper replacing images. "

Two words: Accretion disc.

Black holes themselves may be, well, *black*, but all the stuff swirling into them and/or being ejected from the poles glows nicely. And if that's the sort of thing making the quasar so bright, the images should be spectacular indeed. (note: it'll be a false-color image)

Re: Black Holes in Distant Quasars

[Black+Parrot]

> Part of the problem with the idea that the red shift is a doppler effect is that the observed quasars are apparently all in a relatively spherical arrangement about the Earth, thus implying that the Earth must be the center of the observed universe.

The earth is at the center of the observable universe, pretty much by definition.

Unless of course the observer in question isn't on the earth.