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Edmund Optics, a manufacturer of optical components and photonics solutions, is featured on GoPhotonics for its portfolio of silicon PIN photodiodes, LBO optical crystals, beam expanders, and plate beam splitters designed for optical sensing, laser beam conditioning, frequency conversion, and light management applications. The company focuses on accurate optical detection, efficient wavelength conversion, precise beam shaping, and reliable light distribution to support advanced photonic and laser systems. These solutions are widely used in scientific research, industrial photonics, laser system integration, instrumentation, optical testing, spectroscopy, nonlinear optics, laboratory setups, and other precision optical applications.

57-508 - Silicon PIN Photodiode for Signal Detection Applications

The 57-508 is a silicon PIN photodiode is designed for low signal detection applications and features a blue-enhanced spectral response optimized for operation at 410 nm. Its high sensitivity, low noise characteristics, fast response, and quartz protective window enable reliable detection of weak optical signals, making it suitable for precision optical sensing and signal detection applications. The photodiode is engineered to provide accurate and stable signal measurement across demanding optical systems. Its compact design allows for easy integration into a wide range of scientific, industrial, and instrumentation applications.

#24-199 - 1064 nm LBO Optical Crystal for Frequency Conversion Applications

The #24-199 is a Lithium Triborate (LBO) optical crystal designed for nonlinear frequency conversion applications and operates at 1064 nm. Its optimized crystal orientation and anti-reflective coated surfaces support efficient harmonic generation and wavelength conversion while maintaining high optical performance. The crystal is well suited for frequency doubling and tripling of Ti:Sapphire and Yb-doped laser pulses, as well as frequency conversion of laser sources. Its high optical quality and durability make it suitable for demanding scientific, industrial, and photonics applications.

87-566 - Variable Beam Expander for R&D Applications

The 87-566 is a variable beam expander designed for high-power laser applications and operates across a wavelength range of 260 nm - 365 nm, with a design wavelength of 355 nm. It provides adjustable beam expansion from 2X to 8X, enabling flexible beam sizing for prototyping, research, and development applications. The beam expander utilizes fused silica optics with laser-optimized coatings to ensure high transmission and minimal reflection losses across the operating wavelength range. Its compact, research-grade design supports precise beam conditioning while maintaining excellent optical performance in demanding laser systems.

43-359 - Plate Beam Splitter

The 43-359 is a plate beamsplitter designed for beam splitting applications across a wavelength range of 400 nm - 700 nm. Its dielectric-coated optical surface provides a balanced 50/50 reflection and transmission ratio, enabling efficient light distribution in optical systems. The beam splitter utilizes a float glass substrate and is suitable for applications requiring reliable beam separation, optical routing, and measurement. Its optical quality and broad visible wavelength coverage make it well suited for scientific, industrial, and laboratory photonics setups.

68-271 - Beam Expander for Tunable Laser Systems

The 68-271 is a beam expander designed for broadband tunable laser systems and operates across a wavelength range of 260 nm - 365 nm. It provides 5X beam expansion, enabling precise beam shaping and conditioning for ultraviolet laser applications. The beam expander utilizes fused silica optics with low-reflectance coatings to support efficient light transmission while minimizing optical losses. Its high optical quality helps maintain beam integrity, making it suitable for demanding scientific, research, and laser system integration applications.

With its broad portfolio of silicon PIN photodiodes, optical crystals, beam expanders, and beam splitters, Edmund Optics enables accurate optical detection, efficient frequency conversion, precise beam conditioning, and reliable light management across advanced photonic systems. By combining high-quality optical materials, precision optical coatings, nonlinear crystal technologies, and research-grade optical components, the company delivers dependable performance, flexible system integration, and consistent optical efficiency across laboratory, industrial, and scientific environments. Edmund Optics’ focus on optical precision, component quality, and application-driven design makes it a trusted provider for laser processing, optical instrumentation, spectroscopy, scientific research, nonlinear optics, optical testing, beam delivery systems, and advanced photonics applications.

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