论文信息 - Two-dimensional Bragg reflectors fabricated in IOG1 phosphate glass using multibeam UV-laser interference

Two-dimensional Bragg reflectors fabricated in IOG1 phosphate glass using multibeam UV-laser interference

The two-dimensional periodic patterning of a high performance, rare-earth doped phosphate glass is presented here. A two step patterning method is adopted, wherein high damage is induced into the glass volume by exposure to intense ultraviolet pulsed, laser radiation and subsequently, a chemical development in a strong alkali, selectively etches the exposed areas. A four beam interferometric setup is used for defining the two-dimensional periodic pattern on the sample surface. The method presented here produces relief structures of high smoothness, free of debris or defects, and without extensive optical damage, compared to other approaches. The Bragg gratings imprinted here, are tuned for reflection operation in the 1.5μm band, having periodicities of the order of 500nm. The glass patterned is the phosphate glass IOG1, fabricated by Schott USA and codoped with Er and Yb. The exposures were performed by using the output of a high coherence 213nm, 150ps Nd:YAG laser; while the chemical developing was carried out in aqueous KOH solution. The inscribed periodic structures are characterized by means of diffraction efficiency, and surface topology by employing SEM and AFM scans. Issues related with the interferometric and wet etching processes are also presented and discussed.

Stavros Pissadakis | Christos Pappas | S. Pissadakis | C. Pappas

[1] A. Ikiades,et al. Photosensitivity of ion-exchanged Er-doped phosphate glass using 248nm excimer laser radiation. , 2004, Optics express.

[2] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.

[3] P. Dyer,et al. Excimer laser ablation of Nd: YAG and Nd: glass , 1995 .

[4] A. Ikiades,et al. Sub-micron period grating structures in Ta2O5 thin oxide films patterned using UV laser post-exposure chemically assisted selective etching , 2004 .

[5] M. Wegener,et al. Direct laser writing of three-dimensional photonic-crystal templates for telecommunications , 2004, Nature materials.

[6] Denise M. Krol,et al. Second order optical nonlinearities in thermally poled phosphate glasses , 2002, SPIE OPTO.

[7] Joseph S. Hayden,et al. Waveguide fabrication in phosphate glasses using femtosecond laser pulses , 2003 .

[8] D. Ehrt,et al. UV Transmission and radiation-induced defects in phosphate and fluoride–phosphate glasses , 2000 .

[9] W. Triebel,et al. VUV absorption tail changes of fused silica during ArF laser irradiation , 2000 .

[10] G. Kiriakidis,et al. Gratings in indium oxide film overlayers on ion-exchanged waveguides by excimer laser micromachining , 2001 .

[11] George W. Arnold,et al. Phosphate glass dissolution in aqueous solutions , 1984 .