Ultra-compact and low-threshold thulium microcavity laser
monolithically integrated on silicon

Zhan Su; Nanxi Li; E. Salih Magden; Matthew Byrd; Purnawirman; Thomas N. Adam; Gerald Leake; Douglas Coolbaugh; Jonathan D. B. Bradley; Michael R. Watts

doi:10.1364/OL.41.005708

Optics Letters
Vol. 41,
Issue 24,
pp. 5708-5711
(2016)
•https://doi.org/10.1364/OL.41.005708

Ultra-compact and low-threshold thulium microcavity laser monolithically integrated on silicon

Zhan Su, Nanxi Li, E. Salih Magden, Matthew Byrd, Purnawirman, Thomas N. Adam, Gerald Leake, Douglas Coolbaugh, Jonathan D. B. Bradley, and Michael R. Watts

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Zhan Su, Nanxi Li, E. Salih Magden, Matthew Byrd, Purnawirman, Thomas N. Adam, Gerald Leake, Douglas Coolbaugh, Jonathan D. B. Bradley, and Michael R. Watts, "Ultra-compact and low-threshold thulium microcavity laser monolithically integrated on silicon," Opt. Lett. 41, 5708-5711 (2016)

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About this Article
History
- Original Manuscript: October 3, 2016
- Manuscript Accepted: November 3, 2016
- Published: December 8, 2016

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Abstract

We demonstrate an ultra-compact and low-threshold thulium microcavity laser that is monolithically integrated on a silicon chip. The integrated microlaser consists of an active thulium-doped aluminum oxide microcavity beside a passive silicon nitride bus waveguide, which enables on-chip pump-input and laser-output coupling. We observe lasing in the wavelength range of 1.8–1.9 μm under 1.6 μm resonant pumping and at varying waveguide-microcavity gap sizes. The microlaser exhibits a threshold as low as 773 μW (226 μW) and a slope efficiency as high as 24% (48%) with respect to the pump power coupled into the silicon nitride bus waveguide (microcavity). Its small footprint, minimal energy consumption, high efficiency, and silicon compatibility demonstrate that on-chip thulium lasers are promising light sources for silicon microphotonic systems.

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