World's First X-Ray Laser Goes Live 238
smolloy writes "The world's first X-ray laser (LCLS) has seen first light.
A Free Electron Laser (FEL) is based on the light that is emitted by accelerated electrons when they are forced to move in a curved path. The beam then interacts with this emitted light in order to excite coherent emission (much like in a regular laser); thus producing a very short, extremely bright, bunch of coherent X-ray photons. The engineering expertise that went into this machine is phenomenal — 'This is the most difficult light source that has ever been turned on,' said LCLS Construction Project Director John Galayda. 'It's on the boundary between the impossible and possible, and within two hours of start-up these guys had it right on.' — and the benefits to the applied sciences from research using this light can be expected to be enormous: 'For some disciplines, this tool will be as important to the future as the microscope has been to the past,' said SLAC Director Persis Drell."
X-ray drive (Score:4, Insightful)
How long until Sony announces their new 'Exray' drive, the successor to Bluray--capable of holding 60 petabytes on a single disk? :P
Re:First? (Score:5, Insightful)
Oh, I don't know; I'm pretty sure he did. You see, the whole idea of SDI was to start something very expensive that Just Might Work. That meant that the Soviets had to try to copy us, and the effort caused their rickety, barely-functional economy to collapse, bringing down the whole Soviet Union with it. And that, my friend, was the whole point of the exercise: fight the Cold War on economic grounds, where we could easily out do them rather than on military grounds where we were stuck in a stalemate.
Light (Score:1, Insightful)
"The world's first X-ray laser (LCLS) has seen first light. A Free Electron Laser (FEL) is based on the light that is emitted by accelerated electrons when they are forced to move in a curved path. The beam then interacts with this emitted light in order to excite coherent emission (much like in a regular laser); thus producing a very short, extremely bright, bunch of coherent X-ray photons. The engineering expertise that went into this machine is phenomenal -- 'This is the most difficult light source that has ever been turned on,' said LCLS Construction Project Director John Galayda. 'It's on the boundary between the impossible and possible, and within two hours of start-up these guys had it right on.' -- and the benefits to the applied sciences from research using this light can be expected to be enormous: 'For some disciplines, this tool will be as important to the future as the microscope has been to the past.' said SLAC Director Persis Drell."
You keep using that word. I do not think it means what you think it means.
Re:The one question we all want to know. (Score:3, Insightful)
Re:Awesome (Score:4, Insightful)
Well, if you're applying for run-of-the-mill synchrotron radiation, competition isn't that high. For these ultrashort pulses of radiation, however, it's very _very_ high since there are only two around (and one of them is more far UV than X-Ray), and since you can have only a limited number of endstations on these lines.
There is some serious development on tabletop synchrotrons, but it'll take a while before they're commercial...