Optics and Optical Coatings


This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.

Silver (Ag) coated mirrors have a high reflectance over a wide range from visible to infrared wavelengths.

These laser mirrors are designed for laser applications with specific wavelengths, where low wavefront distortion, low scattering and high reflectivity are usually important.

You can use the 0 - 45° wide-angle dielectric mirrors for an optical system to move light back and forth between two mirrors or Michelson interferometers if you want to use a mirror with an angle of incidence of 45° or less.