We provide DFB and FP laser diodes at any wavelength from 760–3000 nm, interband cascade lasers from 3000–6000 nm and quantum cascade lasers from 6000–14000.
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About nanoplus Nanosystems and Technologies GmbH
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![FIGURE 1. Absorbances of selected gas species with technological relevance in the range from 3–6 μm (a). Comparison of three different laser concepts for emission in the 'gap' region from 3–6 μm (b). Threshold power densities at room temperature are illustrated. Diode lasers are color-coded in black (results from University of Würzburg, Germany/nanoplus, Germany). Quantum-cascade lasers are red (results from Northwestern University, USA/Alpes Lasers SA, Switzerland). Interband-cascade lasers show significantly lower threshold power densities in the 3–6 μm range (green: results from Naval Research Laboratory, USA; blue: results from University of Würzburg, Germany). DFB ICLs with low power consumption for the entire range are feasible [compare DFB laser (green star) to BA results].](https://img.laserfocusworld.com/files/base/ebm/lfw/image/2016/01/1305lfw06f1.png?auto=format,compress&fit=crop&q=45&h=139&height=139&w=250&width=250 "FIGURE 1. Absorbances of selected gas species with technological relevance in the range from 3–6 μm (a). Comparison of three different laser concepts for emission in the 'gap' region from 3–6 μm (b). Threshold power densities at room temperature are illustrated. Diode lasers are color-coded in black (results from University of Würzburg, Germany/nanoplus, Germany). Quantum-cascade lasers are red (results from Northwestern University, USA/Alpes Lasers SA, Switzerland). Interband-cascade lasers show significantly lower threshold power densities in the 3–6 μm range (green: results from Naval Research Laboratory, USA; blue: results from University of Würzburg, Germany). DFB ICLs with low power consumption for the entire range are feasible [compare DFB laser (green star) to BA results].")
(Adapted from P. Kluczynski et al. [1])
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