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Photonics.com Lasers & Laser Systems Technology Newsletter (12/4/2012)

Photonics.com Lasers & Laser Systems Technology Newsletter
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Bristol Instruments, Inc. - Wavelength Measurement and Spectral Analysis
Technology Newsletter
Laser Revascularization Method Could Help Where Bypasses Can't
Laser Revascularization Method Could Help Where Bypasses Can't A laser technique that uses pulses of infrared light to blast channels into the heart muscle has long been the last hope for patients whose arteries are so clogged and constricted that they cannot benefit from bypass surgery. The technique, called transmyocardial laser revascularization, or TMR, has remained a niche procedure for 20 years, but recent advances in stem cell research have inspired a new dimension to TMR therapy.

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Lasers Find Varied Uses in Space Applications
From the first laser fired on another planet to observatory guide stars and space collision avoidance systems, lasers in space are making news with numerous advances and universal firsts.

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Laser beams paint in 3-D
Like an artist meticulously placing colors on a canvas, lasers could someday precisely place molecules in a meshwork to grow organs.

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Bristol Instruments, Inc. - High-Accuracy Wavelength Meters High-Accuracy Wavelength Meters
Bristol Instruments   Request Info Request Info
The 621 Laser Wavelength Meter from Bristol Instruments measures absolute wavelength to an accuracy as high as ±0.0001 nm. It provides the reliable accuracy that is needed for the most demanding applications because it is continuously calibrated with a built-in frequency standard. The result is greater confidence in your experimental results anywhere from the visible to the mid-IR.

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Tiny Probes Dramatically Boost Raman Signals
Novel gold nanoparticles can goose the signal from Raman reporters, or molecules whose jiggling atoms respond to a probe laser by scattering light at characteristic wavelengths. The discovery could lead to better-targeted drug delivery and deeper bioimaging within tissue.

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Theorists Propose Using Heat to Power QCLs
What if you could use the heat generated in a quantum cascade laser — something that normally causes the lasing to turn off — to power the device instead?

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Bristol Instruments, Inc. - Laser Spectrum Analyzers
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