Lasers that emit light in a series of pulses of duration (τ) at a repetition rate (R) with peak power Ppeak. Mostly used to achieve high peak powers and/or retrieve temporal information. Find: - Diode & Semiconductor Lasers - Optically-Pumped Solid State Lasers - Fiber Lasers - Dye Lasers - Special Laser Systems - Frequency-Converted & OPO Lasers - Gas Lasers For industrial, research, biomedical, material processing applications. Pulsed Lasers from TRUMPF, Monocrom, PicoQuant, Amplitude, Thorlabs, Frankfurt Laser Company, Optogama, Edmund Optics, Menlo Systems, TOPTICA, Hamamatsu, Optogama, Litilit, Radiant Dyes, Stuttgart Instruments, APE and more.
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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
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Through Red Shine Hybrid, you can use 3 different wavelengths in a single device. Red Shine Hybrid with different and improved technology has managed to gather the Alexandrite wavelength of 755nm, Diode wavelength of 808nm and Nd YAG wavelength of 1064nm in one device. Beside the safety modes that are enhanced with the developed Hybrid Technology that used for the first time ever; by help of the high melanin specificity through the Alexandrite wavelength of 755 nm, there is provided more effective destruction on hair roots.
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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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