Title :
Directly Pumped Crystalline Silicon Laser - An Impossible Possibility?
Author_Institution :
Div. of Eng., Brown Univ., Providence, RI
Abstract :
Lasing at 1.28 mum was observed in a crystalline silicon structure under direct optical pumping, but is beyond the reach of optical lithography in feature size and beyond that of the e-beam lithography in field size. It is accomplished in this work through the use of a non-lithographic self-organized nanopore array membrane as an etch mask. The anodic aluminum oxide (AAO) nanopore etch mask was placed atop a thin SOI layer which was insulated from the thick silicon substrate by 3 mum of silicon-oxide. The nano patterning was achieved via reactive ion etching (RIE) which introduced nanopores to the silicon. The resultant silicon nanostructure consists of a periodic array of nanoscale high-density emissive structural deformation (ESD) zones
Keywords :
aluminium compounds; elemental semiconductors; nanopatterning; nanostructured materials; optical pumping; semiconductor lasers; silicon; silicon-on-insulator; sputter etching; 1.28 micron; 3 micron; Si; anodic aluminum oxide nanopore; crystalline silicon structure; e-beam lithography; etch mask; nanopatterning; nanoscale high-density emissive structural deformation zone; nonlithographic self-organized nanopore array membrane; optical lithography; optical pumping; reactive ion etching; silicon nanostructure; silicon substrate; silicon-oxide; thin SOI layer; Aluminum oxide; Biomembranes; Crystallization; Etching; Laser excitation; Lithography; Nanoporous materials; Optical pumping; Pump lasers; Silicon;
Conference_Titel :
Group IV Photonics, 2006. 3rd IEEE International Conference on
Conference_Location :
Ottawa, Ont.
Print_ISBN :
1-4244-0096-1
DOI :
10.1109/GROUP4.2006.1708217
