Ophir Photonics Products
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NanoScan 2s Scanning Slit Beam Profiler
11/4/2015
The NanoScan™ 2s from Ophir Photonics is a scanning slit beam profiler designed to deliver highly accurate dimensional measurements of laser beam spatial irradiance profiles in accordance with the ISO standard 11146. With the options of a silicon, germanium, or pyroelectric detector, this instrument is able to profile lasers of any wavelength from UV to far infrared, out to 100 µm and beyond. This profiler provides instantaneous feedback of beam parameters for CW and kHz pulsed lasers, with measurement update rates to 20 Hz.
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Ophir's StarBright Laser Power/Energy Meter
6/30/2015
Ophir's StarBright is a handheld laser power/energy meter with many onboard features including laser tuning, data logging, graphing, normalizing, power or energy density, attenuation scaling, and max and min limits. There are many options of interpreting information as users may choose between digital bar graph, analog needle, line plot, position, stability, and real time statistics formats on a brilliant color, large size TFT 320x240 display.
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120kW Laser Power/Energy Sensor: Very High Power
4/14/2015
The 120kW Laser Power/Energy Sensor is designed to measure high laser power/energy from 1000W to 100,000W with up to a 200mm aperture, and a spectral range of 0.8-1.1μm. It is designed for a laser beam expanded to 100mm diameter in order to hit its deflecting cone.
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Pyroelectric Energy Meter: PE9 Series
4/13/2015
Ophir Photonics’ PE9 series of pyroelectric energy meters is made up of two different models with variations in energy scales, lowest measurable energy, noise on lowest range levels, and linearity. Both models feature an 8mm aperture, a 25,000 Hz repetition rate (max), up to 20µs pulse widths, and high sensitivity sensors.
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Photodiode Laser Power/Energy Sensors: PD300 Series
4/6/2015
This series of photodiode laser power and energy sensors features a very large dynamic range, a swivel mount for places that are difficult to measure, filter in/filter out options, and patented automatic background subtraction. They're available for general laser power and energy sensing applications, as well as applications that call for powers to 1W and 3W, or a sensor with a thin profile for a tight fit into a measurement system or set up.
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Laser Beam Diagnostics: PyroCam™ Pyroelectric Array Camera
2/2/2015
Pyrocam pyroelectric array cameras by Ophir Photonics have been designed to create clear and illuminating images of IR and UV laser beam profiles in both 2D and 3D views. They cover the 13 to 355nm and 1.06 to >3000µm spectral ranges and can be used with CO2 lasers, telecom NIR lasers, THz sources, excimer lasers, and Nd:YAG lasers.
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Laser Beam Measurement Software: BeamGage®
1/29/2015
Accurately determining a laser beam’s size, shape, uniformity, and approximate expected power distribution are absolutely critical to understand in today’s boundary pushing laser designs. BeamGage beam profiling software is based on Ultracal, the company’s patented baseline correction algorithm that helped establish the ISO 11146-3 standard for beam measurement accuracy. Ultracal is the only beam profiler algorithm to set the baseline to zero and in the center of the noise. BeamGage also features BeamMaker® - a modal beam generator that simulates laser beam profile data as if it were coming from an external camera, including input conditions like signal-to-noise, background offset, and bits per pixel resolution. BeamMaker is to laser analysis as a function generator is to an oscilloscope.
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High Power Laser Measurement: 100K-W Series
12/20/2014
The 100K-W laser power meter measures very high power NIR, Nd:YAG, and fiber lasers used in thermal ablation, heavy-section welding, metal forming, and other industrial materials processing applications. It’s also well-equipped to handle military directed-energy applications.
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Laser Spot Size and Position Monitoring for YAG and Fiber Lasers: BeamWatch®
12/19/2014
The BeamWatch® system instantly measures the focus spot size of high power YAG, fiber, diode, and disk lasers and dynamically measures focal plane location during start-up. It uses disruptive technology to monitor a laser beam at frequent intervals without having to shut down the process or remove tooling features to make adjustments.