You should always make sure that you understand the power of your laser and its operating wavelength when deciding which wavelength(s) you need your glasses to absorb (or transmit) and at what optical density.

Minimum optical densityformula

Wavelength is measured based on the “spatial period” of a wave—the distance over which the wave’s shape repeats. It is usually measured from a point to the next time it repeats (crest to crest, valley to valley, etc). Wavelength is commonly designated by the Greek letter lambda (λ) and it is usually measured in meters.

The third root of any number is known as the cube root. (i.e.,) 3√ 8 = 3√2x2x2, which means, 2 is the cube root of 8. It can also be defined as a number multiplied with its square. Here is a list of both perfect and imperfect cube roots of all numbers from 701 to 800.

Minimum optical densitychart

The third root of any number is known as the cube root. (i.e.,) 3√ 8 = 3√2x2x2, which means, 2 is the cube root of 8. It can also be defined as a number multiplied with its square. Here is a list of both perfect and imperfect cube roots of all numbers from 701 to 800.

Minimum optical densitycalculator

where OD is the absorbance at a certain wavelength of light (how much is absorbed), and T stands for transmittance at that wavelength of light. Transmittance is the percent of light at that wavelength that can pass through the material (if T = 0.10, 10% of light at that wavelength can transmit through the lens). So, for an optical density of 5, OD = 5 and T = 0.00001, or 0.001%:

Optical density (OD) or absorbance is a ratio of how much light is absorbed at a specific wavelength. This ratio is logarithmic:

In laser applications, optical density is usually specified in ranges. For instance, our KG5 filter covers three ranges of wavelengths, each at a specific OD:

This means that, for a lens with an optical density of 5 for a specific wavelength, only 0.001% (1/10,000) of the light at that wavelength will pass through that lens.