@misc{John_Khaydarov_HIGH-EFFICIENCY,
 author={John Khaydarov and Andrei Shchegrov and Stepan Essaian and Greg Nemet and Suren Soghomonyan and Mkhitar Simonyan and Hakob Danielyan and Gevorg Gabrielyan},
 howpublished={online},
 abstract={Compact and efficient green lasers are of high interest to consumer electronics applications such as handheld and pocket projectors. Since direct green laser sources are not available, a number of second-harmonic-based approaches have been proposed recently. However, challenges in low-efficiency and high-cost structure have not been successfully overcome yet. We demonstrate a novel green laser source based on the monolithic cavity microchip laser platform. The use of our highly efficient, periodically poled MgO-doped Lithium Niobate as the frequency doubler allows obtaining significant increase in the overall efficiency of the green microchip laser. Specifically, we demonstrate 200 mW green output with > 10% wall-plug efficiency in the 35°C temperature range.},
 title={HIGH-EFFICIENCY GREEN LASER SOURCE FOR COMPACT PROJECTORS},
 type={Հոդված},
 keywords={Physics, Instruments, apparatus, components common to several branches of physics, Optics},
}