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Paper detail

Monolithically integrated waveguide-coupled single-frequency microlaser on erbium-doped thin film lithium niobate

We overcome the difficulty in realizing a monolithic waveguide-coupled microring laser integrated on erbium-doped thin film lithium niobate (Er: TFLN) using photolithography assisted chemo-mechanical etching (PLACE) technique. We demonstrate an integrated single-frequency microring laser operating around 1531 nm wavelength. The PLACE technique, enabling integrated Er: TFLN photonics with low propagation loss, can thus be used to realize low cost mass production of monolithic on-chip microlasers with applications ranging from optical communication and photonic integrated circuit (PIC) to precision metrology and large-scale sensing.

preprint2022arXivOpen access
Youting LiangJunxia ZhouRongbo WuZhiwei FangZhaoxiang LiuShupeng YuDifeng YinHaisu ZhangYuan ZhouJian LiuZhenhua WangMin WangYa Cheng
physics.app-phphysics.optics
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Youting LiangJunxia ZhouRongbo WuZhiwei FangZhaoxiang LiuShupeng YuDifeng YinHaisu ZhangYuan ZhouJian LiuZhenhua WangMin WangYa Cheng

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