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Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
by Riedmatten, Hugues de , Benedikter, Julia , Oehl, Franziska , Hänsch, Theodor W , Lima, Karmel de Oliveira , Hunger, David , Hümmer, Thomas , Ferrier, Alban , Goldner, Philippe , Casabone, Bernardo
in Coupling / Europium / europium-doped nanocrystal / fiber-based microcavity / Field strength / Fluorescence / Metal ions / Nanocrystals / Optical properties / Physics / Quantum computing / quantum networks / Rare earth elements / single ion detection / solid state quantum memories / Spectroscopy / Spectrum analysis / Thin films / Yttrium oxide
2018
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Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
by Riedmatten, Hugues de , Benedikter, Julia , Oehl, Franziska , Hänsch, Theodor W , Lima, Karmel de Oliveira , Hunger, David , Hümmer, Thomas , Ferrier, Alban , Goldner, Philippe , Casabone, Bernardo
in Coupling / Europium / europium-doped nanocrystal / fiber-based microcavity / Field strength / Fluorescence / Metal ions / Nanocrystals / Optical properties / Physics / Quantum computing / quantum networks / Rare earth elements / single ion detection / solid state quantum memories / Spectroscopy / Spectrum analysis / Thin films / Yttrium oxide
2018
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Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
by Riedmatten, Hugues de , Benedikter, Julia , Oehl, Franziska , Hänsch, Theodor W , Lima, Karmel de Oliveira , Hunger, David , Hümmer, Thomas , Ferrier, Alban , Goldner, Philippe , Casabone, Bernardo
in Coupling / Europium / europium-doped nanocrystal / fiber-based microcavity / Field strength / Fluorescence / Metal ions / Nanocrystals / Optical properties / Physics / Quantum computing / quantum networks / Rare earth elements / single ion detection / solid state quantum memories / Spectroscopy / Spectrum analysis / Thin films / Yttrium oxide
2018

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Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3
Journal Article

Cavity-enhanced spectroscopy of a few-ion ensemble in Eu3+:Y2O3

Riedmatten, Hugues de,
Benedikter, Julia,
Oehl, Franziska,
Hänsch, Theodor W,
Lima, Karmel de Oliveira,
Hunger, David,
Hümmer, Thomas,
Ferrier, Alban,
Goldner, Philippe,
Casabone, Bernardo
2018
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Overview
We report on the coupling of the emission from a single europium-doped nanocrystal to a fiber-based microcavity under cryogenic conditions. As a first step, we study the properties of nanocrystals that are relevant for cavity experiments and show that embedding them in a dielectric thin film can significantly reduce scattering loss and increase the light-matter coupling strength for dopant ions. The latter is supported by the observation of a fluorescence lifetime reduction, which is explained by an increased local field strength. We then couple an isolated nanocrystal to an optical microcavity, determine its size and ion number, and perform cavity-enhanced spectroscopy by resonantly coupling a cavity mode to a selected transition. We measure the inhomogeneous linewidth of the coherent 5 D 0 - 7 F 0 transition and find a value that agrees with the linewidth in bulk crystals, evidencing a high crystal quality. We detect the fluorescence from an ensemble of few ions in the regime of power broadening and observe an increased fluorescence rate consistent with Purcell enhancement. The results represent an important step towards the efficient readout of single rare earth ions with excellent optical and spin coherence properties, which is promising for applications in quantum communication and distributed quantum computation.
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Publisher
IOP Publishing
Subject

Coupling

/ Europium

/ europium-doped nanocrystal

/ fiber-based microcavity

/ Field strength

/ Fluorescence

/ Metal ions

/ Nanocrystals

/ Optical properties

/ Physics

/ Quantum computing

/ quantum networks

/ Rare earth elements

/ single ion detection

/ solid state quantum memories

/ Spectroscopy

/ Spectrum analysis

/ Thin films

/ Yttrium oxide

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