Kevin Sites in the Hot Zone - Chapter 15: Coming HomeIn this final chapter of "A World of Conflict," Kevin Sites returns home to the U.S., only to confirm what he suspected -- that in the year that he was gone little had changed.
Kevin Sites in the Hot Zone - Chapter 14: Israel-Hezbollah WarThe war between Israel and Hezbollah shook the landscape in the Middle East.
Kevin Sites in the Hot Zone - Chapter 13: Sri LankaKevin Sites covered Sri Lanka as violence erupted between the government and Tamil Tiger rebels, pushing a nation with so much to lose back to the brink of all-out war. In rebel-held territory Sites interviewed Tiger fighters about their tactics and reported on the many effects of war still seen in the region.
Kevin Sites in the Hot Zone - Chapter 12: Nepal and KashmirKevin Sites covered Nepal during a time of sweeping political change that followed mass nationwide protests, forcing the autocratic King to cede power.
Kevin Sites in the Hot Zone - Chapter 11: Child BrideIn Afghanistan, Kevin Sites met a 12-year-old girl named Gulsoma, whose incredible story of resilience resonated with millions of people worldwide. She was only six years old when she was sold to a neighbor family in Kandahar as a child bride.
Kevin Sites in the Hot Zone - Chapter 10: AfghanistanReporting from Afghanistan in spring 2006, more than four years after the U.S.-led coalition ousted the Taliban, Kevin Sites found that war is not over in the country.
Kevin Sites in the Hot Zone - Chapter Nine: ChechnyaIn Chechnya during the winter of 2005-2006, Kevin Sites reported on a region still reeling from lingering conflict between Russia and Islamic separatists. The conflict engulfed Chechnya in the 1990s, and even now, half of the population is yet to return. Those that have eke out a living amid the rubble.
Kevin Sites in the Hot Zone - Chapter Eight: Iran
Kevin Sites in the Hot Zone - Chapter Seven: IsraelIn Israel, Kevin Sites interviewed Kinneret Boosany, a victim of a suicide bombing at a Tel Aviv cafe in 2002.
1960: Physicist Theodore Maiman uses a synthetic-ruby crystal to create the first laser.
Maiman began tinkering with electronic devices in his teens and even earned college money repairing appliances and radios. He was working at the Hughes Research Laboratories of the Hughes Aircraft company in Malibu, California, when he built the first working laser.
The laser is a device that produces monochromatic (all the same wavelength), coherent (all the waves in phase) light. Today they're used in eye surgery, dentistry, range-finding, astronomical measurement, and welding and other manufacturing uses. You'll find them at the heart of scientific instruments, communications networks, weapons, music systems and supermarket scanners. Lasers are everywhere.
The concept was already bouncing around in the research world in 1960. Arthur L. Schawlow of Bell Labs and Charles H. Townes of Columbia University had written a 1958 paper and patent application proposing an optical version of the maser, or microwave amplification by stimulated emission of radiation.
Columbia grad student Gordon Gould jotted the idea in his notebook in 1957 and applied for a patent in 1959. He'd delayed because at first he thought he needed a working apparatus to apply. But it was Gould who coined the word laser.
Maiman made his own alterations to the Schawlow-Townes concept. He coated the ends of a ruby with silver mirrors, one coating thinner to let some light escape as a beam. He used a flash tube to energize the crystal's atoms. Maiman enclosed the whole shebang in a polished aluminum tube.
Schawlow and the Bell researchers heard of Maiman's realization of their concept with mixed emotions, but they soon bested him by using an arc lamp to produce a continuous, rather than pulse, laser.
Bell got its patent in 1960. Maiman applied for a patent for "Ruby Laser Systems" in 1961, but didn't receive it until 1967. Gould spent decades mired in lawsuits before winning some patents in 1977.
The 1964 Nobel Prize in Physics went to Townes for the laser and Soviets Nicolay Basov and Aleksandr Prokhorov for their earlier work on the maser. Schawlow was acknowledged in the 1964 presentation speech and went on to share the 1981 Nobel Prize in Physics for his "contribution to the development of laser spectroscopy."
Maiman was nominated twice for the Nobel Prize, but did not win it. He received many other awards before his death in 2007 at age 79.
Source: Scientific American
Lasers are like your favorite uncle who can do no wrong. You know, the one who's always hip to the latest technology, does amazing magic tricks at all the family dinners, always photographs well, and has more than once saved baby Med-Tech from a burning house of boring. All the other technologies wish they were he, and Wired.com readers openly admit he's their favorite.
So in celebration of one of our greatest news topics here at Wired.com, we've selected a compilation of the best recent laser appearances on our site. Thanks for the memories, Big L. (Have your own favorite laser news item? Let us know in the comments.)
Left:
Texans Build World's Most Powerful Laser
Scientists have switched on the world's most powerful laser, which for one-trillionth of a second is 2,000 times more powerful than all the power plants in the United States. The laser's output tops a petawatt, which is a quadrillion (1,000,000,000,000,000) watts of power.
(More in next slide)
Photo: Courtesy Mikael Martinez and Texas Petawatt Project, led by Todd Ditmire
(Continued from previous slide)
The power of a laser, its output in watts, is determined by the energy of the laser pulse, measured in joules, divided by its duration, measured in seconds (tiny fractions of a second in this case). So, to get high power, you can either turn up the energy or cram the same amount of energy into a shorter duration pulse -- or do both. The problem is that turning up the energy makes it more difficult to get short pulses.
The solution to this problem requires an almost Rube Goldberg setup inside a 1,500-square-foot clean room. The most powerful laser in the world starts, poetically enough, with a "seed laser" that puts out a wimpy nanojoule of energy for a couple of hundred femtoseconds (that's 10-15 seconds). It must be run through a series of amplifiers, compressors and stretchers before it can recreate the conditions inside the sun for a trillionth of a second.
Beamz Music System Lets You Compose a Symphony With the Power of Freaking Lasers
If Dr. Evil of Austin Powers fame were more musically minded, he may have demanded something like the beamz -- a musical instrument with "fricking lasers" attached to it. This large USB peripheral includes six laser beams that, when broken, activate elements of 30 songs stored on your computer.
Laser-Etched QR Codes: Digital Graffiti For Gadgets
Forget stickers. Real geeks show their commitment with something more permanent: laser engraving. And Jason Fields takes your etching and raises you one QR code. Sure, it's too big for most little QR readers to handle, and the gray on gray isn't exactly contrasty, but Jason has squeezed in his "e-mail signature file, postal address, with links to my blog and twitter pages as well."
The Geekiest Van Conversion Ever
This is the Tele Atlas map machine, a Toyota van tricked out with tens of thousands of dollars worth of cameras, laser range detectors and global-positioning hardware. The laser sensors on the back (the devices labeled SICK) are used to determine the height of overpasses and buildings to help delivery vehicles find the route with the most overhead clearance.
Photo: Michael Calore/Wired.com
The Ultrashort Pulse Laser in Action
Raydiance, a startup company in Petaluma, California, has developed a laser it says can cleanly cut just about any material you can think of -- from human skin to glass -- without throwing off heat or damaging the surface.
This glass slide is seconds away from being ablated by the Raydiance USP laser.
Photo: Jonathan Snyder/Wired.com
Laser Death Star
A new patent granted to Lockheed Martin seeks to combine multiple lasers into a single, higher-power beam, which would, in theory, help achieve the power output needed for laser weapons. The patent outlines a method to "combine multiple laser beams into a single coherent beam without requiring insertion of optical elements into the laser beam."
This Laser Trick's a Quantum Leap
Ph.D. student Elliot Fraval (left) and Dr. Jevon Longdel perform scientific measurements on light in the lab at Laser Physics Centre at Australian National University.
Photo: Tim Wetherell
Navy Pushing Laser 'Holy Grail' to Weapons Grade
For decades, scientists have been slowly working on a laser that never runs out of shots -- and can be "tuned" to blast through the air, at just the right wavelength. For most of that time, all they could get was a laser at light-bulb strength. But researchers at the Thomas Jefferson National Accelerator Facility finally managed in 2004 to assemble a "Free Electron Laser," or FEL, that could generate 10,000 watts of power.
Now the Navy has started an effort to design and build a new FEL, 10 times as strong. That would bring the laser up to 100 kilowatts -- what's considered the minimum threshold for weapons grade. But it would also be just a steppingstone on the way to an energy weapon as powerful as any produced. If ray gun researchers can get the thing to work, that is.
Stupid Laser Tricks: Make Your Own Piece of Jesus-Miracle Toast
They can do everything from nuclear fusion to vaginal rejuvenation, so you know it's a mathematical certainty that lasers = awesome. Plus, your right to tinker with dirt-cheap lasers in your basement is all but guaranteed in the Constitution! With that in mind, here are a few of our favorite DIY laser hacks. (Disclaimer: If you are foolhardy enough to try any of these and end up maiming yourself or getting sucked into the Tron game grid, something else was probably going to remove you from the gene pool soon anyway.)
Photo: Gene Lee
Laser-Guided Saw: Cool Tool or Novelty Toy?
It might not cut as effectively as a lightsaber, or even a real laser cutter, but at least your lines will be (theoretically) straight.
At $20, though, it's probably too cheap to actually do its job. If you've ever used a cheap saw you know that the blade will flex and buck, leaving your supposedly neat cut looking about as straight as Earring Magic Ken. And the laser doesn't even come with a battery. We say: Avoid. You'll get a better result with an old popsicle stick.
DIY Laser Lightshow for $80: Useless but Awesome
What's cooler than a green laser? A green laser that paints semirandom moving spirograph patterns on your wall. Toronto-based hardware hacker Artur Petrovskyy shows you how to make one of your own from about $80 in parts in a new how-to on Instructables.com: Laser show for poor man.
Image: Instructables.com