Observation of Photon Echoes from Evanescently Coupled Rare-Earth Ions in a Planar Waveguide

Sara Marzban; John G. Bartholomew; Stephen Madden; Khu Vu; Matthew J. Sellars

doi:10.1103/PhysRevLett.115.013601

Observation of Photon Echoes from Evanescently Coupled Rare-Earth Ions in a Planar Waveguide

Sara Marzban, John G. Bartholomew, Stephen Madden, Khu Vu, Matthew J. Sellars

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

We report the measurement of the inhomogeneous linewidth, homogeneous linewidth, and spin-state lifetime of Pr3+ ions in a novel waveguide architecture. The TeO2 slab waveguide deposited on a bulk Pr3+:Y2SiO5 crystal allows the H34虠1D2 transition of Pr3+ ions to be probed by the optical evanescent field that extends into the substrate. The 2-GHz inhomogeneous linewidth, the optical coherence time of 70±5μs, and the spin-state lifetime of 9.8±0.3s indicate that the properties of ions interacting with the waveguide mode are consistent with those of bulk ions. This result establishes the foundation for large, integrated, and high performance rare-earth-ion quantum systems based on a waveguide platform.

Original language	English
Article number	013601
Journal	Physical Review Letters
Volume	115
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.115.013601
Publication status	Published - 2 Jul 2015

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title = "Observation of Photon Echoes from Evanescently Coupled Rare-Earth Ions in a Planar Waveguide",

abstract = "We report the measurement of the inhomogeneous linewidth, homogeneous linewidth, and spin-state lifetime of Pr3+ ions in a novel waveguide architecture. The TeO2 slab waveguide deposited on a bulk Pr3+:Y2SiO5 crystal allows the H34虠1D2 transition of Pr3+ ions to be probed by the optical evanescent field that extends into the substrate. The 2-GHz inhomogeneous linewidth, the optical coherence time of 70±5μs, and the spin-state lifetime of 9.8±0.3s indicate that the properties of ions interacting with the waveguide mode are consistent with those of bulk ions. This result establishes the foundation for large, integrated, and high performance rare-earth-ion quantum systems based on a waveguide platform.",

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AU - Vu, Khu

AU - Sellars, Matthew J.

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N2 - We report the measurement of the inhomogeneous linewidth, homogeneous linewidth, and spin-state lifetime of Pr3+ ions in a novel waveguide architecture. The TeO2 slab waveguide deposited on a bulk Pr3+:Y2SiO5 crystal allows the H34虠1D2 transition of Pr3+ ions to be probed by the optical evanescent field that extends into the substrate. The 2-GHz inhomogeneous linewidth, the optical coherence time of 70±5μs, and the spin-state lifetime of 9.8±0.3s indicate that the properties of ions interacting with the waveguide mode are consistent with those of bulk ions. This result establishes the foundation for large, integrated, and high performance rare-earth-ion quantum systems based on a waveguide platform.

AB - We report the measurement of the inhomogeneous linewidth, homogeneous linewidth, and spin-state lifetime of Pr3+ ions in a novel waveguide architecture. The TeO2 slab waveguide deposited on a bulk Pr3+:Y2SiO5 crystal allows the H34虠1D2 transition of Pr3+ ions to be probed by the optical evanescent field that extends into the substrate. The 2-GHz inhomogeneous linewidth, the optical coherence time of 70±5μs, and the spin-state lifetime of 9.8±0.3s indicate that the properties of ions interacting with the waveguide mode are consistent with those of bulk ions. This result establishes the foundation for large, integrated, and high performance rare-earth-ion quantum systems based on a waveguide platform.

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Observation of Photon Echoes from Evanescently Coupled Rare-Earth Ions in a Planar Waveguide

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