MKS Ophir

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*High Power Laser Beam Dumps & Low Power Beam Traps

MKS Ophir

MKS Ophir

Laser beam dumps for high power laser processing, laser measurement and other applications, and low power beam traps

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Compact Juno USB Interface

Juno 7Z01250

MKS Ophir

Juno 7Z01250 - MKS Ophir

*Virtual laser power meter - From sensor to interface to PC - no power source needed*Plug and play with all standard Ophir smart sensors*Use with StarViewer free Android app to turn your smartphone / tablet into a power meter*Record every energy pulse at up to 10 KHz*Log power and energy, average, statistics, histograms and more with included StarLab application*New: Pulsed Power measurements with Thermopile sensors*New: Low Frequency Power on Photodiode sensors - power measurement based on pulse cycle (for VCSEL)*System Integrator Tools included: LabVIEW VIs, COM Object Interface*Very compact - is just an extension of the smart plug

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Pulse Characterization Sensors

MKS Ophir

MKS Ophir

Pulse Characterization Sensors provide the ability to see and measure the temporal characteristics of pulsed and CW laser beams. Ophir Fast Photodiode Detectors are designed to convert optical signals into electrical signals which are then measured with third-party instrumentation such as oscilloscopes and spectrum analyzers. Accessories are available to connect to IS6 integrating spheres or fiber optic cables. Attenuating filter accessories are also available to increase their dynamic range. Different models offer silicon, UV enhanced silicon and InGaAs PIN photodiodes, covering a combined spectral range of 193 nm to 1700 nm. Rise times range from 25 picoseconds to 3 nanoseconds. The fast rise times are achieved by an internal reverse bias voltage circuit. Power is supplied by internal batteries and/or an external power supply depending on the model. Detectors should be connected to a 50Ω impedance in order to maintain their nominal rise times. They can be connected to higher impedance loads, but this will result in a significant increase in the rise time. If higher output voltage is required, it is recommended to connect the detector to a trans-impedance amplifier with an Input impedance of 50Ω

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*Beam Profiling For 266nm To 3000µm

MKS Ophir

MKS Ophir

Unlike a power meter that measures average or instantaneous Watts or Joules of the overall laser beam, knowing how the power is distributed within the beam is equally as important. As an example, if you want to cut something the power should generally be focused in the center of the beam to concentrate the power density in a very small area but if you were trying to weld something with all the power in the center you would poke a hole in the weld; requiring the power to be equally distributed as in a top hat profile.

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Focal Spot Analyzer

MKS Ophir

MKS Ophir

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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Portable Laser Power & Energy Meter

StarLite 7Z01565

MKS Ophir

StarLite 7Z01565 - MKS Ophir

*Brilliant large size TFT 320x240 display*Compact handheld design with rubberized bumpers and optimized kickstand*Choice of digital or analog needle display*Select between English, Japanese, Russian and Chinese interfaces*Analog output*Easy to use soft keys*Easy measurement configuration with context sensitive help*Backlighting and rechargeable battery*Single shot energy measurement with thermal sensors*Power averaging*Resizable Screen graphics*EMI rejection

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*Photodiode Energy Sensors

MKS Ophir

MKS Ophir

Ophir photodiode laser energy sensors are able to measure low energy pulses down to 10pJ at frequencies up to 20 kHz. Silicon photodiodes for the UV and visible spectrum and Germanium photodiodes for infrared.

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Beam Profiling System

BeamCheck

MKS Ophir

BeamCheck - MKS Ophir

BeamCheck is an integrated laser measurement system designed to measure critical laser beam parameters for laser-based additive manufacturing systems BeamCheck includes a CCD camera for spatial measurements and a NIST-traceable power sensor that will provide a complete analysis of the laser power density profile.

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*Energy Sensors For IPL Sources

MKS Ophir

MKS Ophir

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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Handheld Laser Power & Energy Meter

Nova ΙΙ 7Z01550

MKS Ophir

Nova ΙΙ 7Z01550 - MKS Ophir

*Compatible with all standard Ophir Thermopile, BeamTrack, Pyroelectric and Photodiode sensors.*Large, high definition LCD display.*Both digital and analog needle display.*USB and RS232 output to PC with Statistics package.*Select between English and Japanese interfaces*Analog output.*Soft keys and menu driven functions with on line help.*Log every data point at up to 4000Hz with pyroelectric sensors.*Non-volatile data storage up to 59,400 points.*Laser tuning screen and power log.*2 position kickstand.*System Integrator Tools included: LabVIEW VIs, COM Object Interface.

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*Beam Propagation Analysis

M²

MKS Ophir

M² - MKS Ophir

M², or Beam Propagation Ratio, is a value that indicates how close a laser is to being a single mode TEM00 beam, which in turn determines how small a beam waist can be focused. For the perfect Gaussian TEM00 condition the M² equals 1. M² cannot be determined from a single beam profile measurement. The ISO/DIS 11146 requires that M² be calculated from a series of measurements. M² is measured on real beams by focusing the beam with a fixed position lens of known focal length, and then measuring the characteristics of the artificially created beam waist and divergence. We have a number of solutions for the measurement of M² ranging from simple manual processes to fully automated dedicated instruments, depending on the frequency of the need to measure M² of lasers and laser systems.

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*PC Interfaces

MKS Ophir

MKS Ophir

Ophir PC interfaces work on the smart plug principle. This means that almost any Ophir PC interface can work – plug and play – with almost any of the wide range of Ophir sensors. Ophir PC interfaces are also the most precisely calibrated units on the marketת, thus measuring with the highest accuracy. With the versatile Ophir StarLab software, your PC becomes a complete laser measurement station. Ophir also provides software to interface seamlessly with LabVIEW or the user's own software.

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*Irradiance And Dosage Sensors

MKS Ophir

MKS Ophir

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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*Divergent Light Measurement

MKS Ophir

MKS Ophir

The IS1.5-VIS-FPD-800 & IS1.5-IRG-FPD-800 contain 2 photodiodes: a calibrated photodiode for precise power measurement using Ophir meters and a fast photodiode with integral reverse bias circuit for temporal characterization using third-party instrumentation such as oscilloscopes and spectrum analyzers. Their small, 1.5" internal diameter preserves the temporal shape of pulses down to 3.5 nsec for VIS and 6 nsec for IRG. An SMA fiber optic connector is provided for connection to a spectrometer. The large, 20 mm input aperture allows for wide acceptance angles and long working distances, making these spheres well suited for testing VCSELs and other types of laser.

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*Terahertz Measurement

MKS Ophir

MKS Ophir

Terahertz laser power and beam profiling measurement is not a trivial task. But as anyone using or developing THz lasers knows, it is crucial to obtain accurate measurements of your laser. Ophir offers a few choices, depending on what aspect of your laser you need to measure. Read these posts for more about Terahertz measurement.