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Ophir, a wholly owned subsidiary of MKS Instruments and a global leader in precision infrared optics and photonics instrumentation, is featured on GoPhotonics for its expertise in laser measurement and beam control. Its portfolio includes radiometers for irradiance and dosage measurements, high-speed silicon photodetectors for pulse shape analysis, and laser power meters with multi-mode displays, data processing, and software integration for real-time diagnostics. The company also offers laser thermal sensors for measuring continuous and pulsed power and energy, along with precision optical lenses for beam shaping and imaging. Leveraging calibrated detectors, efficient absorbers, and flexible integration, MKS | Ophir supports applications in laser diagnostics, photolithography, material processing, industrial manufacturing, and photonics research.

PD300RM-8W - Radiometer for Irradiance Measurements

The PD300RM-8W is a UV radiometer designed for irradiance measurements across a spectral range of 350 nm - 850 nm. It supports measurement of irradiance with different maximum levels across sub-ranges, along with dosage measurement in J/cm² using a cosine-corrected silicon detector for accurate angular response. It provides high sensitivity with low noise and fine resolution, enabling precise detection of low irradiance levels while also supporting pulse energy measurements. The device maintains strong linearity and defined cosine correction accuracy, ensuring reliable and consistent measurement performance, along with calibrated accuracy over a specified wavelength range. It offers stable response characteristics with a defined response time and high sampling capability for real-time monitoring. It is available as a compact radiometer with standard compliance certifications for integration into optical measurement setups. It is ideal for irradiance measurement of lasers and LED applications.

FPS-1 - UV Silicon Photodetector for Pulse Shape Measurements

The FPS-1 is a UV silicon photodetector designed for pulse shape measurements, operating over a spectral range of 193 nm - 1100 nm with peak sensitivity at 720 nm. It supports high-speed detection with nanosecond-level rise and fall time and a wide bandwidth, enabling accurate capture of fast optical signals. The detector provides low noise performance and high responsivity at peak wavelength, ensuring precise signal measurement and sensitivity to low optical power levels. Its defined active area supports efficient light collection while maintaining fast temporal response characteristics. It is available with a BNC connector and supports optional attenuators, fiber optic adapters, and integrating sphere adapters for flexible system integration. It is ideal for measuring temporal pulse shape in high-speed optical and laser-based applications.

7Z01580 - Laser Power Meter for Photolithography Applications

The 7Z01580 is a laser power meter designed for photolithography applications, featuring a monochrome TFT display with multiple modes including digital, bargraph, analog needle, line plot, pulse chart, pass/fail, position, stability, and real-time statistics for detailed signal analysis. It supports advanced processing with built-in math functions and provides scalable analog output for flexible measurement use. The device enables control and data acquisition via USB and integration with LabVIEW and StarLab PC software. It is compatible with thermal, thermopile, BeamTrack, pyroelectric, and photodiode sensors, supporting a wide range of laser measurement needs. It is available in a compact handheld design with rechargeable battery operation for portable use. It is ideal for measuring lasers in high power, photolithography, and automotive manufacturing applications.

F80(120)A-CM-17 - Laser Thermal Sensor for Material Processing Applications

The F80(120)A-CM-17 is a laser thermal sensor designed for material processing applications, operating over a spectral range of 0.248 - 9.4 µm. It supports measurement of both continuous and pulsed laser power across a wide range, with capability for higher intermittent power handling and specified power density limits for stable operation. In energy mode, it measures pulse energies over a broad range with support for short pulse durations and defined energy density handling. It utilizes a CM absorber for efficient absorption across the spectral range and provides stable thermal response characteristics with defined response time. The sensor features a removable diffuser assembly with adjustable height and integrated fan cooling to support high-power measurement conditions. It is available in a compact package with cable connection for flexible system integration. It is ideal for material processing applications.

632754-117 - Spherical Lens For Beam Shaping Applications

The 632754-117 is a spherical lens designed for use across ultraviolet spectral regions, enabled by its UV grade fused silica material which ensures high transmission and resistance to UV-induced degradation. It provides a negative focal length with tight tolerance, indicating precise beam divergence control and consistent optical performance. The high surface quality minimizes scattering and defects, supporting efficient beam propagation and maintaining optical integrity in demanding applications. Its geometry and construction enable stable alignment and reliable integration into optical systems. It is available as a precision optical component suitable for system-level incorporation and compatible with standard mounting configurations. It is ideal for beam shaping, imaging systems, laser optics, and ultraviolet optical applications.

With its comprehensive range of laser measurement and diagnostic solutions, MKS | Ophir continues to support precise characterization and control of laser systems across scientific, industrial, and manufacturing environments. By integrating advanced detector technologies, calibrated measurement architectures, and robust system design, the company delivers reliable performance for demanding optical applications. Its focus on accuracy, stability, and application-driven innovation reinforces its role as a trusted provider of photonics instrumentation for laser diagnostics, process monitoring, and advanced optical research.

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