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Diode laser could be vital for safeguarding aircraft
September 01, 2006EVANSTON, Ill. -- Terrorists can strike anywhere, at any time, and aircraft, both military and civilian, are targets for heat-seeking missiles, one of many tactics in use by groups hostile to the United States.
Despite their name, heat-seeking missiles actually seek a characteristic infrared light given off by hot objects. Though invisible to the human eye, tiny detectors inside the missiles can detect this infrared light and use it for guidance.
To ensure the safety of aircraft, infrared countermeasure (IRCM) systems are used to confuse or blind the detectors. These systems require a high-power light source that can emit light at the correct wavelength. While various existing light sources may be able to succeed in disrupting the detectors, most are based on technology that is both bulky and expensive. Therefore, only a few military aircraft are now protected by IRCM systems. Developing a compact and inexpensive infrared light source will allow for widespread use of IRCMs, but it has proven to be a significant technical challenge.
A new type of diode laser, called the quantum cascade laser (QCL), may eventually change this situation. Diode lasers are inherently compact and suitable for mass-production, which has led to their widespread and low-cost use in everyday products, including CD and DVD players.
The Center for Quantum Devices (CQD) at Northwestern University, led by Manijeh Razeghi, Walter P. Murphy Professor of Electrical and Computer Engineering, has recently made great strides in laser design, material growth and laser fabrication that have greatly increased the output power and power conversion efficiency of QCLs. The center has now demonstrated individual lasers emitting at wavelengths of 3.8 and 4 microns, capable of up to 1.6 watts of continuous output power at cryogenic temperatures. These lasers have a threshold current density of less than 400 A/cm2 and a power conversion efficiency of 10 percent.
With further development, the researchers at CQD hope to use laser arrays to achieve a continuous output of 10 watts or more. At this wavelength and power level, the lasers could be extremely useful for aircraft protection.
Another significant breakthrough is the ability to operate these 3.8 and 4 micron lasers at room temperature. Room temperature continuous-wave operation has been demonstrated from the same devices with up to 150 milliwatts of output power. This room temperature development makes the lasers attractive for other applications, including early detection of toxic industrial chemicals, explosives and chemical warfare agents.
Northwestern University
A new type of diode laser, called the quantum cascade laser (QCL), may eventually change this situation. Diode lasers are inherently compact and suitable for mass-production, which has led to their widespread and low-cost use in everyday products, including CD and DVD players.
The Center for Quantum Devices (CQD) at Northwestern University, led by Manijeh Razeghi, Walter P. Murphy Professor of Electrical and Computer Engineering, has recently made great strides in laser design, material growth and laser fabrication that have greatly increased the output power and power conversion efficiency of QCLs. The center has now demonstrated individual lasers emitting at wavelengths of 3.8 and 4 microns, capable of up to 1.6 watts of continuous output power at cryogenic temperatures. These lasers have a threshold current density of less than 400 A/cm2 and a power conversion efficiency of 10 percent.
With further development, the researchers at CQD hope to use laser arrays to achieve a continuous output of 10 watts or more. At this wavelength and power level, the lasers could be extremely useful for aircraft protection.
Another significant breakthrough is the ability to operate these 3.8 and 4 micron lasers at room temperature. Room temperature continuous-wave operation has been demonstrated from the same devices with up to 150 milliwatts of output power. This room temperature development makes the lasers attractive for other applications, including early detection of toxic industrial chemicals, explosives and chemical warfare agents.
Northwestern University
Diode Laser Current Events and Diode Laser News RSSAn exquisite container
In campy old movies, Lucretia Borgia swans around emptying powder from her ring into wine glasses carelessly left unattended. The poison ring is usually a confection of gold filigree holding a cabochon or faceted gemstone that can be broken to empty the ring's contents. It is invariably enormous - so large it is rather odd nobody seems to notice it.
Scientists take step toward simple and portable tuberculosis tests for developing world
Two billion people worldwide carry the pathogen that causes tuberculosis (TB), and most of them do not even know they are infected. This is because some 90 percent of people with TB have "latent" infections. They have no symptoms, they can't spread the disease to others and the bug remains dormant in their lungs -- often for years.
BUSM researchers identify better laser for treating facial spider veins
Researchers from Boston University School of Medicine (BUSM) have concluded that the 940nm wavelength laser is superior for treating facial spider veins (telangiectasias) as compared to the 532nm wavelength laser.
New windows opened on cell-to-cell interactions
Applying biological molecules from cell membranes to the surfaces of artificial materials is opening peepholes on the very basics of cell-to-cell interaction.
Tiny infrared laser holds promise as weapon against terror
The difficulty of detecting the presence of explosives and chemical warfare agents (CWAs) is once again all too apparent in the news about the London bombings.
Highlights from Opto and Laser Europe, July 2000
Consultants and suppliers question train signal claims Claims made by the UK's rail operator Railtrack that its signal lights conform to the International Commission on Illumination's (CIE) recommendations have been questioned by its signal suppliers and external technical consultants. The allegations follow a story in last month's issue (OLE June p5) which claimed that Railtrack has not acted on a recommendation by the CIE to shift the colour of its yellow signals further towards the yellow part of the spectrum and away from the red. It is believed that the change will help avert train accidents by avoiding confusion between red and yellow signals. Railtrack claims that its signals, which a
Lasers in car manufacture
Lasers play a key role in modern production - for such tasks as cutting sheet metal to size, welding containers and trimming circuit . But their potential is far from exhausted. The automobile industry is playing a pioneering role in the introduction of new laser types and machining processes. The Fraunhofer Institute for Laser Technology ILT in Aachen and the Fraunhofer Institute for Material and Beam Technology IWS in Dresden are contributing to many developments in this field. At Laser 99 the Institutes presented some of their current work.
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