treatmentLaser therapy is an effective method in the treatment of joint arthrosis. This is confirmed by numerous studiesNumerous clinical studies show that the Nd YAG Arthro laser module has a biostimulating effect on damaged cells of biological tissues in osteortrosis. The biostimulating effect of the Nd YAG Arthro LASEST laser has a high degree of specificity and depends on various radiation parameters (mJ, s, Hz), which are carefully selected in the LASEST medical protocols and are confirmed by a number of positive tests in medical centers. To stimulate the process of cell proliferation, the qualitative characteristics of Nd YAG Arthro radiation (frequency and time of exposure) are more important
ARKANA COSMETICS
Poland
Application: » professional brightening treatments » manual application » during (micro-needle and needleless) mesotherapy and sonophoresis » after IPL and laser therapies » possible combination with UniTone Forte-C Elixir
Request for a quoteSHENZHEN PROMOSTAR HARDWARE CO.,LTD
Germany
These accessories use for precision machinery parts.
Request for a quoteKNIGHT OPTICAL (UK) LTD
United Kingdom
Optical Coherence Tomography otherwise known as OCT is an advanced technology used specifically within retinal imaging and analysis. This non-invasive technology was designed to provide highly detailed images of the retina as well as the optic nerve. It uses light waves to take cross-section images of your retina, using OCT it is possible to see each of the retina’s distinctive layers. Within OCT’s, a light source with a broad optical bandwidth is used for illumination and is split by a Non-Polarising Beam-Splitter into 2 paths referred to as the reference and sample arms. The light from both the reference and sample arms are reflected back and combined at the detector. An interference effect is seen at the detector in the reference and sample arm only if the time travelled by the light is nearly equal. Read PDF for more info
Request for a quoteIMS - INTEGRATED MECHANIZATION SOLUTIONS BV
Netherlands
High precision automated laser marking is a process of marking or engraving a material using a high-powered laser beam. This process is widely used in a variety of industries including medical, automotive and smart devices manufacturing. The laser beam can mark materials such as metal, plastic and glass with extreme accuracy and detail down to micron scale. This makes it possible to mark the smallest materials and components.
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