Laser Safety provides guidance for individuals who work with high-power Class 3B and Class 4 lasers and laser systems that operate at wavelengths between 180 nm and 1 mm. You are not required to train ...

Pierre Gougelman had the first glass eye factory in the United States in 1851. At first, the public thought artificial eyes actually gave their wearers new sight. If only glass eyes worked that way!

The Laser Safety Officer (LSO) conducts hazard assessments for all Class 3B and Class 4 lasers to ensure safety controls are in place, based on factors like laser specifications, usage, environment, ...

Anyone who uses lasers in their line of work will know how important it is not only to wear laser safety glasses but to ensure that those worn offer the appropriate level of protection. However, with ...

The Laser Safety program provides individuals using lasers information on laser hazards, laser-related policies and procedures and recommendations for the safe use of lasers. Much of the information ...

Eye injuries are of primary concern. The effect to the eye depends on various factors, including pupil size, pigmentation, laser pulse duration and repetition, and wavelength. Pierre Gougelman had the ...

Lasers (Light Amplification by Stimulated Emission of Radiation), which produce an intense and highly directional beam of light, are used in many teaching and research applications on RIT's campus.

The Laser Safety Program provides information on laser hazards and laser-related policies, procedures and recommendations for the safe use of lasers. Most of this information is based on the American ...

When using a Class 3B or Class 4 laser, potential hazards from the direct beam exist to the eye and skin. The severity of these hazards is dependent upon the wavelength and the power output of the ...

The Laser Safety Manual serves as the central resource for all laser users on campus, outlining the policies, procedures, and best practices required to ensure safe operation of Class 3B and Class 4 ...