2-PHOTON-PUMPED CAVITY LASING IN A DYE-SOLUTION-FILLED HOLLOW-FIBER SYSTEM

Two-photon-pumped cavity lasing has been achieved in a dye-solution-fi lled hollow-fiber configuration that provides both a longer gain lengt h and a higher local pump intensity. The gain medium is a solution of the new dye 4-[N-(2-hydroxyethyl)-N-(methyl)amino phenyl]-4(')-(6-hydr oxyhexyl sulfonyl)stilbene in dimethyl sulfoxide, which shows a strong two-photon-absorption-induced fluorescence when excited with near-inf rared radiation. When the system is pumped with 800-nm 5-ns laser puls es, frequency-upconverted cavity lasing can be observed with a peak la sing wavelength near 565 nm and a 2-3.5-ns pulse duration. One of the major advantages of using a hollow-fiber geometry is the low two-photo n pump threshold, which was measured to be as low as 20-30 mu J for a 15-cm-long hollow-fiber sample of 100-mu m internal diameter. The conv ersion efficiency from the absorbed pump energy to the upconverted las ing output was 2.3%. (C) 1995 Optical Society of America