• art photonics GmbH

    Rudower Chaussee 46
    Berlin D-12489
    Germany
    49-30-677-988-70
    49-30-677-988-799
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    More Info on art photonics GmbH

    Produces and develops specialty fiber products: cables, bundles and spectroscopy probes for 0.18-18µm; best fiber solutions for Mid-IR-spectroscopy, flexible laser delivery and IR-imaging for 100-500K

    Products

    art photonics is dedicated to development and manufacture of speciality mid infrared materials for the production of fiber optic cables, ATR probes, T/R probes, gas detection ...
    art photonics offers Fiber Bundle EF-50xUV-VIS100FB, Fiber optic Bundles for remote spectroscopy and PIR-Fiber Bundles for IR-Imaging.
    Fiber probes for process spectroscopy are based on coherent bundle design which provides the best coupling efficiency with spectrometers, light emitters (LED, lasers, lamps, etc...
    broad spectra fiber solutions from UV till Mid-IR (18µm)

    Articles

    Photo 11079353 © Fernando Cortés | Dreamstime.com
    Dreamstime Xxl 11079353
    art photonics CEO and founder Viacheslav Artyushenko discusses how the world-leading producer of custom fiber solutions continues its evolutionary journey.
    (Courtesy of Draper)
    FIGURE 1. A prototype cyborg dragonfly carries sensors and a photovoltaic power supply; the addition of optogenetically controlled steering will complete the conversion of this insect into a tiny externally controlled drone that can continually power itself by pausing to eat other insects.
    Optics and photonics contribute hugely to the digital revolution and are in turn furthered by it. Some of these contributions are evident to the average tech-savvy but nonspecialist...
    (Courtesy of Art Photonics)
    Porcine tissue samples from fatty muscle (left) and heart muscle (right) cut with light from CO (top) and CO2 (bottom) lasers operating at an 8 W output at a speed of 4 mm/s are compared, with the beam focused 2 mm below tissue surface in all cases; the white zone shows the extent of coagulation. These cross-sectional microscope images were taken after perpendicular cuts with a scalpel.
    Carbon monoxide (CO) and carbon dioxide (CO2) lasers are somewhat similar mid-infrared sources with very different histories.

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