Laser emission of a compact surface-emitting microlaser, optically pumped and operating around 1.55 mum at room temperature is presented. The two-dimensional photonic crystal is conformed in a hybrid triangular-graphite lattice designed for vertical emission. The structures have been fabricated on InP slabs. The heterostructure consists of four In0.65As0.35P/InP quantum wells grown on an InP substrate by molecular beam epitaxy and it is transferred onto a silicon-on-silica substrate by wafer bonding (SiO2 thickness = 0.9 plusmn 0.1 mm). Standard techniques of electron-beam lithography, reactive ion beam etching and reactive ion-etching have been used for the patterning. The optical characterization was performed by micro-photoluminescence spectroscopy. Single-mode, strongly polarized laser emission has been achieved with quality factors Q exceeding 6000.
Two-dimensional surface emitting photonic crystal laser with hybrid triangular-graphite structure
GALLI, MATTEO;ANDREANI, LUCIO;
2009-01-01
Abstract
Laser emission of a compact surface-emitting microlaser, optically pumped and operating around 1.55 mum at room temperature is presented. The two-dimensional photonic crystal is conformed in a hybrid triangular-graphite lattice designed for vertical emission. The structures have been fabricated on InP slabs. The heterostructure consists of four In0.65As0.35P/InP quantum wells grown on an InP substrate by molecular beam epitaxy and it is transferred onto a silicon-on-silica substrate by wafer bonding (SiO2 thickness = 0.9 plusmn 0.1 mm). Standard techniques of electron-beam lithography, reactive ion beam etching and reactive ion-etching have been used for the patterning. The optical characterization was performed by micro-photoluminescence spectroscopy. Single-mode, strongly polarized laser emission has been achieved with quality factors Q exceeding 6000.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.