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Narrow-band, tunable, semiconductor-laser-based source for deep-UV absorption spectroscopy

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Abstract

Tunable, narrow-bandwidth <200-MHz, 215-nm radiation was produced by frequency quadrupling the 860-nm output of a high-power, pulsed GaAlAs tapered amplifier seeded by an external-cavity diode laser. Pulsing the amplifier increased the 860 nm215 nm conversion efficiency by 2 orders of magnitude with respect to cw operation. Detection of nitric oxide and sulfur dioxide by high-resolution absorption spectroscopy was demonstrated.

© 1997 Optical Society of America

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