Key Takeaways: Top engineers go above and beyond in optical system design optimization. For successful production, consider: Manufacturability: Design for high yield by analyzing tolerances and by using easy-to-process components. Material Selection: Choose cost-effective materials with short processing times that suit your application. Testing and Assembly: Design for active adjustment, testing, and smooth integration with […]
Read moreAdvantage of Optical Domes Optical domes play an important part in many optical systems, protecting delicate components from harsh environmental conditions. Maybe you need to produce high-quality images of deep sea organisms. You’ve got the delicate underwater camera that will produce the high resolution imagery you need, but you need something that will enable them […]
Read moreKey Takeaways: Avantier specializes in micro prisms, invisible to the naked eye yet vital for society’s development. These prisms, made from precision-cut prism glass, enable light bending for optical equipment, aiding in miniaturization and lightweighting. Avantier’s technology creates (ultra-small) micro prisms (<3 mm) customized for diverse environments. The production process involves cutting, grinding, polishing, and […]
Read moreKey Takeaways: The Ritchey Chrétien telescope, part of the Cassegrain system, overcomes coma and spherical aberration with hyperbolic mirrors, improving off-axis clarity in reflecting telescopes. Developed by George Ritchey and Henri Chrétien in 1910, the RC telescope uses hyperbolic mirrors to enhance image quality for astronomical observations. Unlike traditional reflecting telescopes, it avoids spherical aberration, […]
Read moreKey Takeaways: Flow cytometry is a method for studying cells using fluorescent tagging and optical analysis as they flow past a laser. Improving the signal-to-noise ratio (SNR) is essential in flow cytometry for reducing background noise and enhancing relevant cell signals, achieved through optimizing optical components. Laser performance directly affects SNR, with stable output power […]
Read moreThe Power of Raman Spectroscopy: From Molecular Fingerprints to Medical Marvels Introduction Raman spectroscopy is a versatile analytical technique that has revolutionized our ability to investigate the molecular composition and structure of various materials. This method relies on the inelastic scattering of light by a molecule’s chemical bonds, providing unique insights into vibrational energy and […]
Read moreIn the realm of medical technology, Custom Optics Companies play an integral role in shaping innovations that push the boundaries of what is possible. Among the many facets of optical engineering, the chief ray angle stands as a paramount factor in the success of endoscopy. In this article, we’ll explore the world of endoscopy and […]
Read moreIntroduction In the world of automation, the ability to see and understand the environment is crucial. Machine vision cameras play a pivotal role in this domain, enabling machines to perceive and interpret visual information like never before. These sophisticated cameras, combined with custom optics, have opened up a world of possibilities across various industries. In […]
Read moreSpecifications for optical surfaces outline the precise quality criteria that govern the performance of optical components such as lenses and mirrors. These criteria encompass parameters like surface roughness, flatness, curvature, and coatings. Understanding these specifications is crucial to ensure optimal light transmission, image quality, and system efficiency in various applications, from microscopy to astronomy. Accurate […]
Read moreHigh Reflective Coatings Optical coatings are thin films that are applied to optical components to control their reflectance, transmittance, or polarization properties. They are used in a wide variety of applications, including lasers, telescopes, cameras, and medical devices. How Optical Coatings Work Optical coatings work by interfering with the light waves that are reflected or […]
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