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IEEE Spectrum
June 2008
Saswato R. Das |
Tabletop EUV Light Source South Korean research team demonstrates an economical way to generate EUV light using femtosecond laser pulses.   |
IEEE Spectrum
September 2006
J R Minkel |
A Tabletop UV Microscope With the recent demonstration of a high-resolution ultraviolet microscope that fits on a tabletop, semiconductor manufacturing and basic science researchers alike may soon have a far easier time getting the images they need. |
IEEE Spectrum
August 2007
Brian Santo |
Plans for Next-Gen Chips Imperiled Dim lights are casting shadows on extreme-ultraviolet lithography's debut date. Wisely, chip makers and their equipment suppliers are exploring alternatives, particularly those processes that will let them extend today's lithographic technology. |
IEEE Spectrum
April 2009
Bill Arnold |
Shrinking Possibilities Lithography will need multiple strategies to keep up with the evolution of memory and logic |
IEEE Spectrum
January 2012
Katie M. Palmer |
EUV Faces Its Most Critical Test 2012 will be the make-or-break year for extreme ultraviolet lithography |
IEEE Spectrum
November 2010
Sally Adee |
EUV's Underdog Light Source Will Have Its Day Discharge-produced plasma might beat its laser-based competitors |
IEEE Spectrum
May 2010
Neil Savage |
The Laser at 50 It's the golden anniversary of this fundamental technology |
IEEE Spectrum
November 2008
Chris A. Mack |
Seeing Double Someday, chips might be made with X-rays. Until then, double-patterning lithography will be the only game in town. |
InternetNews
February 21, 2006
Clint Boulton |
IBM Chip Path to Cheat Moore's Law? In the search for new chip form factors to carry the torch that is Moore's Law, IBM researchers this week said they have found a way to build smaller chip circuits. |
IEEE Spectrum
January 2010
Anne-marie Corley |
Loser: Dim Prospects for NanoUV's Bright Light NanoUV's unproven light source won't shine in the next-gen lithography market |
Wired
July 2001 |
Verge Sandia National Laboratories's Extreme Ultraviolet Engineering Test Stand develops and tests extreme ultraviolet lithography (EUVL) techniques, with which chip makers hope to overcome the limitations of current production methods... |
IEEE Spectrum
June 2009
Saswato Das |
Two-Laser Lithography Shrinks Transistors A new microscopy technique gets adapted for chipmaking |
The Motley Fool
June 13, 2006
Dan Bloom |
Texas Instruments Gets Tinier The company finds a watery way to create smaller, faster, cheaper chips. |
InternetNews
January 26, 2004
Michael Singer |
Intel Puts Chip Making Technique on the Fast Track Chip making giant's $20 million investment in Cymer's extreme ultraviolet lithography could help bring sub-45 nanometer chips to market earlier than first thought. |
IEEE Spectrum
January 2009
Jean Kumagai |
Winner: Quantum Leap Quantum-dot lasers from Japan's QD Laser will make high-speed "fiber to the home" networks simpler, cheaper, and more power-efficient |
The Motley Fool
September 8, 2011
Anders Bylund |
Watch This Trial to Gain an Edge Taiwan Semiconductor Manufacturing is evaluating extreme ultraviolet equipment from three different manufacturers. |
PC Magazine
October 11, 2006 |
Bits & Bites v25n19 Intel and researchers have developed a silicon chip that can produce laser beams. |
InternetNews
September 18, 2006
David Needle |
Intel Sees The Laser Light Intel announced its latest research designed to create a super-fast hybrid silicon processor capable of moving data at terabits-per-second speed. |
Technology Research News
February 9, 2005 |
All-silicon chip laser demoed Researchers from Intel have moved a step forward in the push to meld lasers and silicon chips, which could eventually be used in portable biological and chemical sensors, to amplify communications signals, and to convert light to different wavelengths. |
IEEE Spectrum
August 2010
Richard Stevenson |
A Dark-Horse Green Laser Shines New green-laser chips could power HD pico projectors |
IEEE Spectrum
March 2010
Richard Stevenson |
Lasers Get the Green Light Compact green-light sources could slash the cost of laser TV |
Military & Aerospace Electronics
December 2006 |
Northrop Grumman Test Fires Powerful, Continuously Pulsed Illuminator Laser A new diode-pumped solid-state, next-generation illuminator laser developed delivered multikilowatt output power while operating at 5,000 pulses per second during recent tests, company officials reported. |
National Defense
October 2009
Grace V. Jean |
The Promise of the World's Smallest Lasers Recent advances in power efficiency, design and high temperature functionality have pushed ultra-thin semiconductor lasers closer to real-world utility. |
IEEE Spectrum
February 2010
Sally Adee |
"Pac-Man" Process Eats Nanodirt Cleaning up nanoparticles critical to commercializing extreme UV lithography. |
Technology Research News
December 1, 2004
Eric Smalley |
Pure Silicon Laser Debuts Researchers have made a prototype laser from silicon. The laser is tunable, meaning it can lase in a range of wavelengths, or colors, and it works at room temperature. |
Technology Research News
March 9, 2005 |
Silicon Chip Laser Goes Continuous Useful lasers made from silicon would make it possible to move data between and within computer chips using light rather than electricity. This would make for faster chips that could be more tightly integrated with optical communications equipment. |
IEEE Spectrum
February 2012
Miles et al. |
Using Lasers to Find Land Mines and IEDs A laser could ionize a distant puff of air and thus safely detect the fumes from buried explosives |
AboutSafety
May 8, 2001 |
Laser Safety Guidelines for understanding the dangers of lasers and the importance of working with them safely... |
Military & Aerospace Electronics
October 2005
John McHale |
Chasing the goal of an efficient battlefield laser U.S. DoD researchers aim to develop small lasers for use in tactical air missions. The engineering challenge has been taken up by contractors including Northrop Grumman and Lockheed Martin. |
IEEE Spectrum
February 2012
Rachel Courtland |
Self-Assembly Takes Shape Researchers exploit new ways to make ICs and hard disks pull themselves together |
Military & Aerospace Electronics
March 2008 |
Aculight Introduces Eye-Safe Fiber Laser for Military Ladar Applications Aculight has introduced an eye-safe, high-power, pulsed fiber laser called the Perseus-TS for integration into military laser direction and ranging systems. |
The Motley Fool
September 19, 2006
Jack Uldrich |
Intel's New Laser-Like Focus The company's latest silicon chip development could open up exciting new markets. The news offers investors yet another reason to believe Intel remains a sound long-term investment. |
IEEE Spectrum
February 2008
Willie D. Jones |
Engineers Work on Laser-Based Brain-Machine Interface for Prosthetic Arm Laser stimulation of nerves may light the way to better nervous-system feedback for prosthetics |
Scientific American
August 2005
Steven Ashley |
Making Light of Silicon Scientists at UCLA and Intel have obtained coherent photons of light from silicon. This low cost alternative to "exotic" semiconductor materials currently used as lasers will pave the way for many technological advances. |
IEEE Spectrum
November 2006
Samuel K. Moore |
Laser on Silicon Scientists have managed to combine an indium-phosphide light emitter and a silicon chip to produce a hybrid laser that, years from now, could lead to cheap terabit-per-second connections within and around computers. |
Technology Research News
October 20, 2004
Eric Smalley |
Wide laser makes simple tweezers Much of medical diagnostics and biomedical research involves trapping, manipulating and sorting individual cells and like-sized bits of matter. A recently demonstrated way of manipulating cells promises to be less expensive than laser tweezers. |
Military & Aerospace Electronics
April 2008 |
Aculight Offers Telesto Pulsed Fiber Lasers for Surveillance and Mapping The Telesto family of pulsed fiber lasers are perfect for applications such as laser radar (LADAR), surveillance, mapping, and nonlinear optics conversion. |
Military & Aerospace Electronics
October 2004 |
Fiber lasers emerge as strong competitor for future laser weapons They may be applied to jet fighters, land vehicles, and perhaps even man-portable systems. And they even have the potential to edge-out other solid-state laser approaches such as slab lasers and free-electron lasers. |
Military & Aerospace Electronics
August 2004
John Keller |
Military, Industry Seek to Boost Efficiency of Diode Lasers Efficiency is a driving trend in military optoelectronics technology development. Increasing efficiency of lasers would translate into fewer batteries that fighting forces in the field would have to carry. |
Chemistry World
July 13, 2015
Ida Emilie Steinmark |
X-ray emitting bacterial plasmas could enhance imaging The possibility of using engineered bacteria as x-ray plasma sources, which could significantly improve resolution in medical and molecular imaging. |
The Motley Fool
October 11, 2005
Dan Bloom |
Intel's Optical Breakthrough The chipmaker may open new tech frontiers by teaching silicon and light to cooperate. |
IEEE Spectrum
February 2006
Holonyak & Feng |
The Transistor Laser Ultrafast transistors that output optical and electrical signals open a new computing frontier. |
Technology Research News
September 24, 2003 |
Teamed lasers make smaller spots Researchers from Boston University have tapped the properties of polarization in order to focus a laser beam more tightly in space. The method could be used to scan objects in finer detail and to make finer features in processes like rapid prototyping and photolithography. |
IEEE Spectrum
March 2007
Michael Riordan |
A New Blue Laser Two groups have just announced a new kind of solid-state laser that emits bright blue-violet light, raising hopes of getting green. |
Military & Aerospace Electronics
April 2005
John Keller |
Editor's Notebook: Darpa Details Requirements for High-Energy Diode-Laser Initiative The U.S. Defense Advanced Research Projects Agency is moving ahead with a program to develop a 100-kilowatt weapons-grade diode laser capable of destroying military targets. |
Chemistry World
December 19, 2012 |
Overcoming small obstacles What if photolithography hits a barrier it cannot breach? That question has motivated scientists to recruit chemistry to a series of printing methods with the power to engineer nanometre-scale materials. |
Chemistry World
October 12, 2006
Richard Van Noorden |
Lasers on the Energy Ski Slope Researchers have shown that intense laser-light pulses can act as catalysts, controlling the end products of a chemical reaction without themselves being absorbed. |
Military & Aerospace Electronics
January 2006 |
Laser Diffuse and Laser Retroreflective Sensors Banner Engineering is offering the World-Beam QS18LD laser diffuse and QS18LLP laser retroreflective sensors. The devices are for applications where high power and small beam size are important, such as semiconductor, materials handling, medical, and pharmaceuticals. |
National Defense
August 2010
Grace V. Jean |
Navy Aiming for Laser Weapons at Sea The Navy expects to incorporate lasers onto most ship classes in its surface fleet, including amphibious ships, cruisers and destroyers. |
Military & Aerospace Electronics
May 2007
John McHale |
Laser Weapons: Moving From Promise to Performance The military's laser weapons programs are making steady progress in their transition from the laboratory to the battlefield, with deployment of initial systems expected within the next three to five years. |
