Controlling light emission by engineering atomic geometries in silicon photonics

Arindam Nandi; Arindam Nandi; Xiaodong Jiang; Dongmin Pak; Daniel Perry; Kyunghun Han; Edward S. Bielejec; Yi Xuan; Mahdi Hosseini; Mahdi Hosseini

doi:10.1364/OL.385865

Optics Letters
Vol. 45,
Issue 7,
pp. 1631-1634
(2020)
•https://doi.org/10.1364/OL.385865

Controlling light emission by engineering atomic geometries in silicon photonics

Arindam Nandi, Xiaodong Jiang, Dongmin Pak, Daniel Perry, Kyunghun Han, Edward S. Bielejec, Yi Xuan, and Mahdi Hosseini

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Arindam Nandi, Xiaodong Jiang, Dongmin Pak, Daniel Perry, Kyunghun Han, Edward S. Bielejec, Yi Xuan, and Mahdi Hosseini, "Controlling light emission by engineering atomic geometries in silicon photonics," Opt. Lett. 45, 1631-1634 (2020)

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- Integrated Optics
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About this Article
History
- Original Manuscript: December 13, 2019
- Revised Manuscript: February 17, 2020
- Manuscript Accepted: February 17, 2020
- Published: March 17, 2020

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Abstract

By engineering atomic geometries composed of nearly 1000 atomic segments embedded in micro-resonators, we observe Bragg resonances induced by the atomic lattice at the telecommunication wavelength. The geometrical arrangement of erbium atoms into a lattice inside a silicon nitride (SiN) microring resonator reduces the scattering loss at a wavelength commensurate with the lattice. We confirm dependency of light emission to the atomic positions and lattice spacing and also observe Fano interference between resonant modes in the system.

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Corrections

23 February 2022: A typographical correction was made to the affiliations.

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