Japanese Scientists Fire the Most Powerful Laser On the Planet 117
Sepa Blackforesta writes: Scientist from University of Osaka claim have fired the world's most powerful laser. The beam was intact for 2-petawatt, pulse lasted just one picosecond. While it produced a huge amount of power, the energy required for the beam itself is equivalent to that needed to power a microwave for two seconds. An associate professor of electrical engineering at Osaka University Junji Kawanaka says “With heated competition in the world to improve the performance of lasers, our goal now is to increase our output to 10 petawatts.”
disappointing (Score:1)
Re:disappointing (Score:5, Funny)
It only lasted for a picosecond...
Longer than I usually do.
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Re:disappointing (Score:5, Informative)
It only lasted for a picosecond...
A petawatt for a picosecond is one kilojoule. That is enough energy to warm a liter of water by 0.24C.
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following this thought, most microwaves are 1200W, so to power one for ten seconds is 12kJ. so it's not unreasonable if the energy efficiency of their setup is 10% that the statement about microwave ovens is correct.
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12/5 = 2.4 kJ, so it is still in the range, that would be a little less than 50% efficiency (as ShanghaiBill stated above).
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Or ablate the surface of a small fuel pellet and cause it to implode. Inertial confinement fusion is all about super intense and short-duration shots of energy.
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With heated competition in the world to improve the performance of lasers...
I see what he did there.
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arf arf
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It only lasted for a picosecond...
A petawatt for a picosecond is one kilojoule. That is enough energy to warm a liter of water by 0.24C.
Now I finally know what I need to replace my broken kettle with....
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Regardless, the real question is how do we strap these things to a shark's head.
It's can't just 'strap' a laser weapon to a shark's head because of the constraints Newtonian Physics and Euclidean Geometry. However, you can achieve something like that with some workarounds from Quantum Mechanics. <|:-)
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Still if it lasted for 420 Picoseconds (still less than a blink of an eye) it would bring a liter of ice to boiling. Most likely to vapor in under a second.
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Two petawatts for a picosecond is an average power of 2000W. That's about 2 secs for an average microwave, taking inefficiency into account.
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"That's about 2 secs for an average microwave"
Most average microwaves are 800-1200W. 2000w is getting into industrial/commercial-level microwaves.
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Here's one that claims 1460 W [homedepot.com], so it's not _too_ far off base (look at the specs page).
I said "That's about 2 secs for an average microwave" meaning 2 secs x 1000 W is 2000 W-secs. I mixed up my units, I know.
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Re:disappointing (Score:5, Funny)
It only lasted for a picosecond...
They couldn't risk cooking the shark it was attached to.
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Probably if it keeps up for more than a second. At least it will burn a small hole in it.
Why does anyone care? (Score:3)
Why should anyone care about the power level, as opposed to the pulse energy?
ie why does it matter if the kilojoule is spread over one or ten picoseconds? Without this vital piece of information, it is hard to get excited (pardon the pun).
Re:Why does anyone care? (Score:5, Informative)
Why should anyone care about the power level, as opposed to the pulse energy?
people who have tattoos should care, for one. the ideal tattoo removal laser has really high instantaneous power but really short pulses. this way you get high power but low energy per pulse.
the tattoo ink breaks down better with higher power lasers because it breaks the bonds holding the ink molecules together. but by keeping the energy per pulse low, you're minimizing the tissue damage since tissue damage grows with the amount of energy absorbed by the skin. when you break up the ink molecules into smaller pieces then the immune system can flush away the bits into your lymph nodes. tattoo is gone!
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But does one vs ten picosecond matter?
And I'm pretty sure you do not want a laser of this size pointed at your arm, unless you are looking for instant amputation.
Re:Why does anyone care? (Score:5, Interesting)
Timewise, atomic/molecular physics spans many orders of magnitude (from metastable states with lifetimes measured in hours, to inner-shell Auger processes with lifetimes measured in femtoseconds).
However making short pulses isn't the true goal of lasers like this (A Q-switched laser that fits on a coffee table can make femtosecond pulses). The true thing of interest is the *number density of photons*. Since it's a laser, the photons have the same energy. Then the total number of photons is proportional to the energy in the pulse, but the *number density* - N/V - scales as the inverse of the spot size and the inverse of the duration (since duration = length / c).
Therefore, the smaller the spot size and the shorter the pulse, the higher the number density of photons that is acheived in a given energy.
When you have a high enough number density, nonlinear things (whose rate of occurrence is the number density of photons raised to the order of the nonlinearity) happen and nonlinear things are Generally Interesting. For example, a sufficiently high laser power is capable of literally blowing protons/neutrons out of an atomic nucleus - IF you can dump roughly a nucleon binding energy into an area the size of a nucleus, in less than the time it will try to radiate it away.
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I don't think you would have felt it.
Maybe. But it's not even close to being able to hurt you.
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You can use high powered lasers in short pulses to compress and heat a fuel pellet to achieve fusion. A particular approach called fast ignition [wikipedia.org] requires a petawatt pulse. Given that the laser is named LFEX for "Laser for Fast Ignition Experiments", it is a good bet this is what it is for.
(My expertise in this is limited to having had an inkling which Wikipedia article to look in for the answer. Further input from real experts is welcome.)
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I think that should be "a very short pulse" -- but pulses used for ignition are much higher energy -- from 70kJ to 2MJ, according to your link.
I would not believe anything in the article, though, since the writer seems to have a very poor grasp of basic physics:
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I think that should be "a very short pulse" -- but pulses used for ignition are much higher energy -- from 70kJ to 2MJ, according to your link.
The HiPER [wikipedia.org] is a proposed project to experiment with this type of fusion, requiring the use of Petawatt scale lasers
A 2 Petawatt pulse over 1 Picosecond isn't quite a 4 Petawatt pulse over 10 Picoseconds, but its on its way. Considering the organisation in TFA are now planning on scaling to produce 10 Petawatt pulse, maybe the timescale can be reduced for Ignition.
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Higher instantaneous power leads to higher incidence of nonlinear effects. For example, if the power is high enough, there is so much photon density that two photons of some wavelength can appear as a single photon of half the wavelength to a molecule. This is used in two-photon microscopy, which will excite only a tiny region of a specimen to fluoresce and light up, giving much sharper images.
Re:Why does anyone care? (Score:5, Informative)
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Why should anyone care about the power level, as opposed to the pulse energy?
ie why does it matter if the kilojoule is spread over one or ten picoseconds? Without this vital piece of information, it is hard to get excited (pardon the pun).
Well, given that a 9mm has about the same energy as two or three punches... Yeah, I'd say the time and method of energy transfer/release is extremely important.
Sources:
https://en.wikipedia.org/wiki/... [wikipedia.org]
http://www.science.ca/askascie... [science.ca]
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Why should anyone care about the power level, as opposed to the pulse energy? ie why does it matter if the kilojoule is spread over one or ten picoseconds?
I imagine this type of laser technology would be useful for Inertial Confinement Fusion [wikipedia.org] based projects.
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* Because destruction free techniques like laser ablation are base on high local fields
* because a 1ps pulse spreads over 10^12 Hz bandwidth, which may be useful if you want to have "more white" light (but this pulse is actually not very short)
* because pump-probe techniques depend on short pulses. If you additionally need a strong pulse, higher power may come in handy
* I also imagine it could be an advantage for generating plasma.
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Why should anyone care about the power level, as opposed to the pulse energy?
Thresholds, the same reason that the Large Hadron Collider may break apart subatomic particles while a 16 inch cannon cannot, even though the cannon delivers more total energy.
What would you use that for? (Score:2)
Making enormous swiss cheese!
Analogies? (Score:5, Funny)
Help me understand. Is a two petawatt laser being fired for a picosecond more like being sneezed on by a rhino with a cold or more like being shat on by an elephant with a bad case of explosive diarrhea?
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it's like being electrocuted while fixing your lamp for one second.
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.55wh or 2kJ (Score:2)
Filter error: You can type more than that for your comment
What? (Score:2)
Re:What? Math fail... (Score:2)
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For instance, they can be attached to sharks instead.
I came into this thread looking for sharks. I was disappointed and decided to remedy the situation.
On the planet? (Score:2, Redundant)
Which planet? Alderaan?
If I only worked for 1 picosecond... (Score:5, Funny)
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Yeah, I was reading it as though the object would be a job title, as in "Japanese Scientists Fire the Most Powerful CEO On the Planet". Now that would be a real achievement.
Godzilla? (Score:1, Redundant)
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Is nobody going to mention Godzilla?
I was going to ask how large does the shark have to be to have this laser mounted on it. But, maybe Godzilla would be a better Lazar platform. Tim S.
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The next step... (Score:3, Funny)
I'd be interested in some values on scalability... (Score:1)
"enough energy to warm up your breakfast burrito for two full seconds"
*stunned in awe*
So, since the experiment is effectively useless, some information on whether the same technology scales and what sort of energy would be required to heat a burrito for like, 2 minutes. Or does it not scale, so conveniently leaves that type of information out?
God damn it... (Score:1)
...it's LASER... it's an acronym: Light Amplification by Stimulated Emission of Radiation... why can't anyone ever get it right? It's not "laser" and it's not "Laser", it's f'ing LASER! (well, I suppose if we REALLY want to be pedantic it's actually L.A.S.E.R. ... but even I'm not that much of an asshole).
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it's LASER as long as you pronounce it "ell ey ess ee ar". What, you dont? Then why dont you stop nitpicking, and just accept that at some point, a pronouneable acronym becomes a new word.
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Lol, this is a snafu, isn't it? We do have nimbies like yourself to put a stop to this kind of thing, but perhaps a quango should be set up to enforce it? People who insist in turning acronyms into words should be tasered and their zip code published online, so we can be sure they're on everyone's radar.
I shall get a faq written up on this dangerous problem.
Re: God damn it... (Score:2)
LASER is what is happening. laser is the name of the device.
I know what they need it for (Score:2)
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Executing in an invalid environment! (Score:2)
Clicked in the link and got;-
Executing in an invalid environment for the supplied user
Does that mean they lasered the webserver for me?
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It means you either supplied an invalid user for the environmental execution in question, or you supplied an invalid user for the execution environment. You should see to that. I hear there is a pill.
two microwaves, you say? (Score:2)
Would they be Class C, Class D? Be specific, I'm trying to figure out how long a Cree would last connected in series to a three bar electric fire.
Make Popcorn? (Score:2)
Can't melt steel beams (Score:1)
2 megawatts can't melt steel beams.
I have a dream... (Score:2)
...of a Slashdot where the editors actually edit submissions and turn them into something approaching standard English.
When actual fucking EDITING commences, I'll consider that worth coming up with the bucks to fly out to Oregon and meet you guys at *Con. Thanks for the invite, though.
Proper Context (Score:2)
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Muhahaha! (Score:2)
Story only valid if scientist laughed maniacally before/during/after firing the worlds largest laser...
Comparison to NIF (Score:1)
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worth of scientific proof reading ? ;) (Score:1)
such small laser... (Score:2)
Americans have mastodonic laser.
Out of work laser, will work for juice (Score:2)
What does an out of work laser do?
Light up the night sky?
Send a message to Alpha Centauri?
Flash incinerate your pop corn?
But Barack said it wasn't possible... (Score:1)
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Because a whole country can only focus on one thing at a time!
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I bet you're a riot at parties.
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Maybe these scientists are trying to make a laser powerful enough to shoot the radiation dead?
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You're going to blow up a planet of dyslexics?