Q-98

A Neodymium-doped athermal phosphate laser glass of exceptional optical quality offering high gain and athermal behavior. The result is a higher repetition rates with minimum beam divergence.

Q-100

Patented Used in applications where the highest possible gain is desired. The superior performance of this Neodymium-doped athermal phosphate glass results from its uniquely high Neodymium concentration.

Q-246

A Neodymium-doped silicate laser glass known for its strength and durability. It is the laser glass of choice for a wide range of applications from range finding to materials processing.

QE-7S QE-7

Erbium-doped phosphate laser glass which is four times more efficient than the Erbium -doped silicate laser glass developed in the 1960's. Best yet its unique "eye safe" operating wavelength of 1.535 microns makes it ideal for specialized medical apparatus as well as field-safe range finding.

QX/Nd, QX/Nr, & QX/Yb

QX Phosphate glass laser materials exhibited a chemical durability which is comparable to silicate glasses. These high performance laser glasses are designed to withstand high thermal loading and thermal shock conditions in both strengthened and un-strengthened configurations.

G-108

Germanate IR Transmitting Glass Window/Laser Material Kigre's BGA and NRL's BGG glass materials exhibit high optical transmission in a wide window region from the visible (~ 450nm) through the infrared to ~ 5um. Kigre has demonstrated a tunable 2.09 micron BGA glass laser doped with Holmium and other rare earth sensitizers.

MM-2

High Gain Short Length 1.54um laser material for use in the next generation of EDWAs and EDFAs. Designed specifically for telecommunications applications, this patented ion-exchangeable material is now available for use in the fabrication of miniature, monolithic, high performance C-band power splitters, EDWAs, EDFAs, gain blocks, pre-amplifiers, and (WDM) wavelength-division multiplexing integrated optical devices.

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