Cut Curiously Precise Holes With Femto-Lasers 37
paymenow points out "this story at Science News Online about femto-lasers and how their novel 'cutting physics' allows much more precision than previous lasers. The technology is now finding applications in various industries including, biotech, automotive and laser eye surgery."
Cool use for diabetics and hospitals (Score:3, Insightful)
Heck, if they could make it cheap enough, that would be great in hospitals. Can you imagine if patients didn't need to be constantly pricked for blood?
-Peter
Re:Cool use for diabetics and hospitals (Score:4, Insightful)
As it is, when my late grandmother was getting up in years, we had to prick her like three times with the heavy setting on the lanclet just to get blood.
No sick jokes, I know you are comtemplating them!
Re:Cool use for diabetics and hospitals (Score:2, Interesting)
Actually, the article says otherwise, in an example where the researcher actually stuck his finger in to test it out -- "As the cut in his finger deepened and he felt no discomfort, Rode became convinced. When the blood started to flow, he yanked his finger away."
I'm guessing that what's happening here is a result of the laser's ability to cut through with no damage to the surround areas. A nerve endings that gets destroyed or vaporized sends no signal -- but normally what happens is that nearby endings get activated by the microscopic tearing and damage done on the surrounding tissue. In this case, the surrounding tissue is completely untouched, so nothing happens.
Re:Cool use for diabetics and hospitals (Score:1)
Heheh (Score:3, Funny)
Re:Heheh:eR (Score:1)
Re:Heheh (Score:2)
Somehow I think they might notice during the month or so it would take
-
Pulse Speed = Nanoscale Destruction? (Score:4, Interesting)
Re:Pulse Speed = Nanoscale Destruction? (Score:2, Informative)
this increase would be significant. This really depends on where you start from (pulse energy) and what material you are looking at, i.e. on the actual numbers.
However, increasing the repetition rate without reducing pulse energy is not easy. In fact, to get the pulse energy to levels where you can evaporate material you have to reduce the repetition rate.
Usually fs-Lasers are built in the way that there is an "oscillator" that delivers short but weak pulses at a very high repetition rate (around 100 MHz). To get more intense pulses you have to amplify them, which usually results in a lower repetition rate, because for an amplification to take effect you have to apply it for a certain time (sum up several round trips of the pulse in the amplifier).
For example in the laser I'm working with the oscillator delivers 20fs long pulses at 80MHz with each pulse having an energy of 5nJ. These pulses are fed into an "Regenerative Amplifier" that delivers 50fs pulses at 200kHz with each pulse having 5uJ of energy (a factor of 1000 more). The amplifier does this by letting a "seed" pulse from the oscillator run several times through an amplifier medium (a laser crystal) until a maximum pulse energy is reached and the amplified pulse is released to the output. You cannot however amplify every of the 80MHz pulses this way, because the amplifier medium has to regenerate ("charge up") before it can amplify again - that's where the name "regenerative amplifier" comes from.
In some systems you can trade repetition rate for pulse energy, i.e. get more intense pulses by lowering
the repetition rate (giving the amlifying medium more time to regenerate and therby reaching higher "charge" levels), but only in a limited range.
Femto lasers? (Score:4, Funny)
Re:Femto lasers? (Score:2)
Re:Femto lasers? (Score:1)
Application to optical storage? (Score:2)
Of course, when you get things that small, dust/fingerprints would be a REAL big issue.
Perhaps sealing a disc into a permanent caddy would do.
Any math/science/optics geeks out there up to the challenge of computing what a theoretical "femto-burned" disc the size of a CD/DVD could hold, assuming you didn't have to worry about dust? (sealed in a caddy)
Re:Application to optical storage? (Score:3, Informative)
Since a laser can't "see" objects (i.e. read data pits) smaller than the wavelength, computer chips are manufactured using Extreme-UltraViolet (EUV) lasers. However, size and $$$ are the current limiting factors for transitioning EUV to the desktop transition.
Layering seems to be the way to go with getting more data on a disc (see a previous
Re:Application to optical storage? (Score:1)
Figures.... (Score:5, Funny)
All the technology in the world, and what do they use it for? To make glow-in-the-dark rats.
Re:Figures.... (Score:2, Funny)
No more battery-powered glowing rats using up valuable resources.
Re:Figures.... (Score:1)
It could help the DOJ keep tabs on Mr. Gates.
Re:Figures.... (Score:2, Funny)
Radiation: Used to kill rats
Gene therapy: Used to make rats glow in the dark
RNA Interface: Used to stop rats from glowing in the dark
Pesticides: Used to kill rats
Femtolasers: Used to make faster, better glow-in-the-dark ratsThe trend is obvious.
Forget the laser, I want the rats (Score:2)
I read an article about glowing mice about a year ago, but glowing rats would be cool (to those of us deeming rodents as good pets).
Would suck if they used this on humans though...
"Peek-a-boo, I found Billy"
"Oh mannn, hide-and-seek sucks when you glow".
Re:Forget the laser, I want the rats (Score:1)
http://i.abcnews.com/media/OnAir/images/ho_alba_g
PhotoShop (Score:1)
Can this ever be cheap? (Score:2)
Re:Can this ever be cheap? (Score:3, Insightful)
Waste Disposal (Score:1, Interesting)
describes the laser as an atomizer, tearing apart
electron bonds. As technology improves, and energy
becomes more plentiful, could this not be used to
break waste down to it's elements, which could then
be seperated, and recycled?
Re:Waste Disposal (Score:1)
Better hoaxes through science (Score:1)
Mini motors (Score:1)
Re:Mini motors (Score:1)