Showing product results. 1 - 15 of 46 products found.
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Ophir Photonics
Ophir has several ways to measure intense pulsed light IPL radiation used in cosmetic treatments. The light from these sources is broadband and usually has a high divergence. Furthermore, the light source is often coupled to the skin via an index matching gel. For these reasons, we need special solutions to accurately measure the energy of the IPL pulses.
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BeamMic® - Ophir Photonics
BeamMic is simplified set of measurement tools for the entry level beam analysis user. The camera-based beam profiling system consists of a camera and analysis software. Often times, this system will need to be used with beam attenuation or beam sizing accessories, depending on your laser application. BeamMic includes a complete set of high-accuracy measurements, and features a rich graphical interface. For the laser technician, this entry-level software will easily help you quickly become familiar with the many benefits of beam profiling.
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Ophir Photonics
Measure your laser beam power distribution and focal spot size of wavelengths from 300 – 1100nm. The average power can be from <1 to 400 Watts and up to 5 kW for FSA-HP, the focal spot can be as small as 34.5μm. The FSA can also be used to measure how the focal spot shifts with power during its critical start-up phase.
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Ophir Photonics
Beam analysis of high-powered industrial lasers have always proved to be difficult because of the power levels (affecting the power densities) that these lasers operate at. Yet, the measurement of these lasers are critical for their success because of thermal effects which are more of a factor at these higher powers. These high-power performance measurement products have proven to be solutions for laser users who operate and maintain these high-powered lasers
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Ophir Photonics
Laser beam dumps for high power laser processing, laser measurement and other applications, and low power beam traps
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Ophir Photonics
Ophir has a number of ways to measure high laser powers up to 12kW without heavy water cooled equipment. Most of today’s lasers can be set to emit for a short, precisely controlled period of time. If a short exposure to the laser of 0.3 – 10s is sufficient to measure the power then there are compact, uncooled sensors available for this purpose.
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15K-W-BB-45 - Ophir Photonics
The 15K-W-BB-45 is a water cooled thermal power/energy laser measurement sensor for very high powers with a 45mm aperture. It can measure power from 100W to 15,000W. It has a deflecting cone and annular absorber that withstands high power densities to 10kW/cm². It covers the spectral range from 0.8 - 2 and 10.6µm. The sensor comes with a standard 5 meter cable for connecting to a meter or PC interface.
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Ophir Photonics
Multifunctional integrating spheres enable simultaneous measurement of multiple laser parameters including:*Power*Pulse Characteristics*Spectrum
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Ophir Photonics
Based on the tried-and-true 10K-W sensor, the new IPM modular industrial sensor for measuring the average power of high-power lasers up to 11kW is ideal for tough industrial use. Ruggedized by design, it has all the features needed for reliable, fail-safe operation in a tough operational environment. Its modular design provides the flexibility needed to address customers' specific needs.
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Ophir Photonics
Integrating spheres are used especially for measuring divergent light sources such as LEDs. The light is introduced through the input port, then reflected many times by the highly reflective interior of the sphere until it illuminates the inner surface uniformly. A detector samples a small fraction of this light to measure the total power input. Ophir integrating spheres have a highly reflective diffuse white coating for measurements independent of beam size, position and divergence. There are several sphere sizes, apertures and wavelength regions available. The large IS6 series has 2 configurations for measuring divergent or parallel beams.
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Ophir Photonics
This sensor family provides cosine corrected irradiance measurement in W/cm² and dosage measurement in J/cm². The sensors are calibrated over their entire spectral range, and are thus ideal for irradiance and dosage measurement of UV, VIS and IR LED based light sources
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Ophir Photonics
Photodiode sensors have a high degree of linearity over a large range of light power levels: from fractions of a nanowatt to about 2 mW. Above that light level, corresponding to a current of about 1 mA, the sensor saturates and reads erroneously low. Therefore, most Ophir PD sensors have a built-in and removable attenuator allows measurement of up to 3 W without saturation.
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Ophir Photonics
Thermal sensors have a series of bimetallic junctions called a thermopile. Radial or axial heat flow through the sensor creates a voltage proportional to the power absorbed as it flows through the thermopile. The reading is not dependent on the ambient temperature since only the temperature difference is measured and not the absolute temperature. The thermopile elements are so arranged that the reading is almost independent of beam size and position. Generally, Ophir specifies ±2% or better uniformity of reading over the surface.
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Ophir Photonics
UV, VIS, and IR LEDs are replacing traditional light sources and are enabling new applications. Ophir offers a number of choices in LED power measurement - use the LED sensor finder to find the right sensor. For cases where a complete image of the beam distribution is necessary, use a beam profiling camera.
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Ophir Photonics
The focus spot analyzer can measure your laser beam power distribution and focal spot size of wavelengths from 266 – 1100nm. The average power can be from <1 to 400 Watts and the focal spot can be as small as 25µm. The FSA can also be used to measure how the focal spot shifts with power during its critical start-up phase.
