The femtosecond laser induced void array inside Al2O3 crystals was discussed. The void array was formed spontaneously under the irradiation of a single beam of infrared femtosecond laser which was focused at a fixed point inside the Al2O3 crystal sample. It was found that the regular voids only could be fabricated near the sample surface, which was different from the situation in CaF2 single crystal reported before. The possible mechanism of the phenomena was also discussed.
We report on near-infrared to visible upconversion luminescence in transparent Eu-doped SrO-TiO-SiO glass-cera...
Bin Zhu Songmin Zhang Shifeng Zhou Nan Jiang Jianrong Qiu 1 State Key Laboratory of Silicon Materials,Zhejiang University,Hangzhou 310027,China 2 Department of Physics and Astronomy Arizona State University,Tempe,Arizona 85257-1504,USA
We reported effect of various alkaline oxides on the broadband infrared luminescence from bismuth-doped aluminophosphate glasses. The samples of (99-x)P2O3-17Al2O3-xR2O-IBi2O3 (R=Li, Na and K, x=0 and 10 in mol%) were prepared under reducing condition controlled by additional carbon powders. The fluorescent intensity decreased with increasing content of alkaline oxides and basicity of host glasses. The 1/e fluorescence lifetime of the 72P2O3-17Al2O3-10R2O-1Bi2O3 (R=Li, Na and K) glasses decreased from 461 to 316 μs, as alkaline ions changed from Li^+ to K^+.
