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"Optically pumped" lasersRed, green and blue optically pumped lasers pointing to one another. Traditionally, to generate laser light in an industrial laser, argon gas is excited. Because the photons emitted from the excited atoms are identical in their phase and amplitude, a strong beam of light (rather than scattered luminescence) is generated.
Researchers at MIT came up with optically pumped semiconductor lasers, a way to amplify laser light with a semiconductor and a series of lenses. As a result, the cost and power consumption of lasers has declined, opening up the market. Coherent started getting into optically pumped semiconductor lasers in 2001 and now expects them to generate a significant part of the company's roughly $500 million in annual revenue.
Red, green and blue lasers
The red (635 nanometer), green (532 nanometer) and blue (488 nanometer) lasers all have different wavelengths and thus get used for different tasks. The lasers in this class sell for between $2,495 and $11,995.
699 Ring Dye laser
A 699 Ring Dye laser. It is used for spectroscopy, or the study of how atoms emit light. Semiconductor manufacturers require these tools to test their products. The ring laser can be tuned for wavelengths of 300 to 900 nanometers.