Cobolt

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Have I selected the right laser for my Raman experiments?

Thanks to rapid technology advancements in recent years, Raman spectroscopy has become a routine, cost-efficient, and much appreciated analytical tool with applications in material science and in-line process control for pharmaceutical, food & beverage, chemical and agricultural industries. This white paper discusses important performance parameters to consider when selecting a laser for Raman spectroscopy experiments

Cobolt

Cobolt, a part of Hübner Photonics, will highlight new wavelengths of 457nm, 473nm, 515nm, 660nm and 1,064nm on its 08-01 series, complementing the already available wavelengths of 405nm, 532nm, 561nm and 785nm. The 08-01 series of single frequency and narrow linewidth lasers are ideal for Raman spectroscopy applications.

PRESS RELEASE

Expansion of 06-01 series

Cobolt has introduced a new wavelength of 553nm on the Cobolt 06-01 Series of plug and play CW lasers. The 06-DPL 553nm (diode pumped laser) is available with up to 50mW and offers direct intensity modulation (analog and digital) at up to 5 kHz.

Cobolt

Cobolt, a Swedish manufacturer of high performance lasers, will show a range of new products at Photonics West and BiOS

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Catching fleeting catalytic intermediates by high speed 785 nm NIR Raman spectroscopy

It is only in the last two decades that Raman spectroscopy has begun to realize its potential as an almost universally applicable analytical technique from materials and life sciences applications to point of care analysis. This is pri­marily thanks to the availability of compact laser sources, high sensitivity cameras and high resolution compact spectrometers.

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