Title :
Hybrid sol-gel materials for integration of optoelectronic components
Author :
Fardad, M. Amir ; Mishechkin, Oleg V. ; Fallahi, Mahmoud
Author_Institution :
Opt. Sci. Center, Arizona Univ., Tucson, AZ, USA
fDate :
1/1/2001 12:00:00 AM
Abstract :
We report on the integration of the Bragg filters with 1×8 multimode interference (MMI) power splitters on silicon substrate, and the demonstration of 1×8 external cavity distributed Bragg reflector (DBR) lasers. Hybrid organic-inorganic material is developed based on the sol-gel synthesis of an organically modified silicon alkoxide. The sol-gel material is spin coated on grating SiO2-Si wafers, and the designed components (splitters and filters) are UV imprinted and developed using solvent assisted photolithography. The Bragg reflectors show filtering up to 98% with a bandwidth of about 0.8 nm consistent with their theoretical prediction. Integrated reflectors and MMI splitters are then used as feedback resonators for DBR lasers. Single-mode lasing with sidemode suppressions of up to 40 dB and a linewidth of about 400 kHz is observed. At 1550- nm wavelength, the loss and power uniformity in the MMI splitters, designed on the basis of lowest loss, are, respectively, 0.13 dB and 0.03 dB poorer than their theoretical calculations
Keywords :
distributed Bragg reflector lasers; integrated optics; integrated optoelectronics; laser modes; optical beam splitters; optical communication equipment; optical fabrication; optical materials; photolithography; semiconductor lasers; sol-gel processing; wavelength division multiplexing; 0.13 dB; 1×8 external cavity DBR lasers; 1×8 multimode interference power splitters; 1550 nm; Bragg filters; Bragg reflectors; DBR lasers; MMI splitters; SiO2-Si; UV imprinted; feedback resonators; grating SiO2/Si wafers; hybrid organic-inorganic material; hybrid sol-gel materials; integrated reflectors; optoelectronic component integration; organically modified silicon alkoxide; power uniformity; silicon substrate; single-mode lasing; sol-gel synthesis; solvent assisted photolithography; spin coated; Distributed Bragg reflectors; Gratings; Interference; Laser feedback; Optical materials; Organic materials; Power lasers; Resonator filters; Silicon; Solvents;
Journal_Title :
Lightwave Technology, Journal of
