Want to learn more about metallic mirror coatings? Find information about standard and custom metallic mirror coatings that are available at Edmund Optics.
Ultrafast highly-dispersive mirrors are critical for pulse compression and dispersion compensation in ultrafast laser applications, improving system performance.
Optical components that create two beams by splitting incident light are beamsplitters. Read more about the different types of beamsplitters at Edmund Optics.
Laser optics high reflectivity mirrors meet exceptional specifications that Edmund Optics' competitors often fail to meet. Learn more at Edmund Optics.
Differential interference contrast (DIC) is one of the polarization techniques that can be used in optical microscopy. Learn about this technique at Edmund Optics.
Do you want to know more about the importance of optical specifications? Learn the different types of specifications and their impact on your system at Edmund Optics.
Learn how to navigate the many available options for shaping the irradiance profile and phase of laser beams to maximize your laser system's performance.
This comparison of the performance of aspheric, achromatic, and spherical PCX lenses in different situations reveals the ideal use cases for each type of lens.
UV grade fused silica is ideal for UV and visible applications, but IR grade fused silica has better transmission in the IR due to a lack of OH- impurities.
While working with machine vision, there are different types of filters that can be used to alter the image. Find out about the different types at Edmund Optics.
Learn about how diffraction gratings separate incident light into separate beam paths, different types of gratings, and how to choose the best grating for you.
Basic Principles of Raman Scattering and Spectroscopy
Raman spectroscopy is a technique used to identify the chemical composition of samples based on how light scatters off of them. Learn more & view related optics
Large Aspheres: Enabling High-Power Optical Systems
Large diameter aspheric lenses enable high-power optical systems, but several key considerations must be taken into account during their fabrication process.
Many lasers are assumed to have a Gaussian profile, and understanding Gaussian beam propagation is crucial for predicting real-world performance of lasers.
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