Title :
Low-threshold room-temperature lasing in bottom-up photonic crystal cavities formed by patterned III-V nanopillars
Author :
Scofield, A.C. ; Kim, S. -H ; Shapiro, J.N. ; Lin, A. ; Liang, B.L. ; Scherer, A. ; Huffaker, D.L.
Author_Institution :
California Nano-Syst. Inst., Univ. of California, Los Angeles, CA, USA
Abstract :
In this work, we present a method whereby the photonic band gap region and active gain regions are formed simultaneously by selective-area metal-organic chemical vapor deposition. This approach allows us the ability to design device parameters lithographically. By accurate control of position and diameter of the NPs, high-g cavities can be formed entirely with NPs. This particular model cavity supports a non-degenerate hexapole mode with a high overlap between the E-field and the center pillars. Design optimization by finite-difference time-domain simulations yields a cavity Q of-5000.
Keywords :
III-V semiconductors; MOCVD; nanostructured materials; photonic band gap; photonic crystals; semiconductor lasers; active gain regions; bottom-up photonic crystal cavities; finite difference time-domain simulations; model cavity; non-degenerate hexapole mode; patterned III-V nanopillars; photonic band gap region; selective-area metal-organic chemical vapor deposition; temperature 293 K to 298 K; Cavity resonators; Gallium arsenide; Indium gallium arsenide; Semiconductor process modeling; Stimulated emission; Substrates; Waveguide lasers;
Conference_Titel :
Device Research Conference (DRC), 2011 69th Annual
Conference_Location :
Santa Barbara, CA
Print_ISBN :
978-1-61284-243-1
Electronic_ISBN :
1548-3770
DOI :
10.1109/DRC.2011.6086643
