Spectral Stabilization of Laser Diodes by External Bragg Resonator
Abstract
Volume Bragg laser (VOBLA) with feedback produced by a reflective photo-thermo-refractive volume Bragg grating is used for narrowing spectral width and angular divergence of laser diodes. High-efficient, single mode and spectral width of 60 pm at power of 800 mW are demonstrated from 35 and 100 m-stripe laser. The problem of high-brightness, high-efficient semiconductor laser sources with stable narrow emission spectra is important for different kinds of applications. Various constructions of external resonators for laser diodes (LD) were proposed and investigated, but up to now no successful commercial product resulted from those researches. First of all, no diffraction limited single lobe emission was obtained for external cavity semiconductor lasers under high pumping current [1-5]. The other reason restraining external cavity applications is an additional number of optical elements, which should be aligned with very high accuracy. Application of novel photo-thermo-refractive (PTR) glass Volume Bragg Laser (VOBLA) concept to semiconductor lasers allows simplifying an external cavity construction and obtaining narrow spectrum and near-diffraction limited divergence laser beam with no losses of original efficiency of LD.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 2004
- Accession Number
- ADA452556
Entities
People
- George Venus
- Leonid Glebov
- Manoj Kanskar
- Vadim Smirnov
Organizations
- University of Central Florida