Frequency comb generation in SNAP bottle resonators

Sergey V. Suchkov; Misha Sumetsky; Andrey A. Sukhorukov

doi:10.1364/OL.42.002149

Frequency comb generation in SNAP bottle resonators

Sergey V. Suchkov^*, Misha Sumetsky, Andrey A. Sukhorukov

^*Corresponding author for this work

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

Abstract

We develop a theory of optical frequency comb generation in ultra-compact surface nanoscale axial photonic (SNAP) bottle microresonators, employing the nonlinear interaction of whispering gallery modes which are confined along an optical fiber with nanoscale radius variation. We predict that a SNAP microresonator with a radius of a few micrometers can generate a frequency comb with an ultra-fine sub-gigahertz spectral spacing, which would require traditional ring resonators of centimeter radius. We identify regimes of stable or quasiperiodic comb dynamics due to soliton excitation, and show that special engineering of the SNAP radius profile can be used to compensate for nonlinearity-induced dispersion.

Original language	English
Pages (from-to)	2149-2152
Number of pages	4
Journal	Optics Letters
Volume	42
Issue number	11
Early online date	30 May 2017
DOIs	https://doi.org/10.1364/OL.42.002149
Publication status	Published - 30 May 2017

Keywords

Nonlinear wave mixing
Nonlinear optics
devices
Microcavities
Fiber optics components

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10.1364/OL.42.002149

Frequency comb generation in SNAP bottle resonators
© The Authors
Submitted manuscript, 2.28 MB

https://arxiv.org/abs/1703.02707

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title = "Frequency comb generation in SNAP bottle resonators",

abstract = "We develop a theory of optical frequency comb generation in ultra-compact surface nanoscale axial photonic (SNAP) bottle microresonators, employing the nonlinear interaction of whispering gallery modes which are confined along an optical fiber with nanoscale radius variation. We predict that a SNAP microresonator with a radius of a few micrometers can generate a frequency comb with an ultra-fine sub-gigahertz spectral spacing, which would require traditional ring resonators of centimeter radius. We identify regimes of stable or quasiperiodic comb dynamics due to soliton excitation, and show that special engineering of the SNAP radius profile can be used to compensate for nonlinearity-induced dispersion.",

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AU - Suchkov, Sergey V.

AU - Sumetsky, Misha

AU - Sukhorukov, Andrey A.

PY - 2017/5/30

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N2 - We develop a theory of optical frequency comb generation in ultra-compact surface nanoscale axial photonic (SNAP) bottle microresonators, employing the nonlinear interaction of whispering gallery modes which are confined along an optical fiber with nanoscale radius variation. We predict that a SNAP microresonator with a radius of a few micrometers can generate a frequency comb with an ultra-fine sub-gigahertz spectral spacing, which would require traditional ring resonators of centimeter radius. We identify regimes of stable or quasiperiodic comb dynamics due to soliton excitation, and show that special engineering of the SNAP radius profile can be used to compensate for nonlinearity-induced dispersion.

AB - We develop a theory of optical frequency comb generation in ultra-compact surface nanoscale axial photonic (SNAP) bottle microresonators, employing the nonlinear interaction of whispering gallery modes which are confined along an optical fiber with nanoscale radius variation. We predict that a SNAP microresonator with a radius of a few micrometers can generate a frequency comb with an ultra-fine sub-gigahertz spectral spacing, which would require traditional ring resonators of centimeter radius. We identify regimes of stable or quasiperiodic comb dynamics due to soliton excitation, and show that special engineering of the SNAP radius profile can be used to compensate for nonlinearity-induced dispersion.

KW - Nonlinear wave mixing

KW - Nonlinear optics

KW - devices

KW - Microcavities

KW - Fiber optics components

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VL - 42

SP - 2149

EP - 2152

JO - Optics Letters

JF - Optics Letters

IS - 11

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Frequency comb generation in SNAP bottle resonators

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