Raman-like light scattering from acoustic phonons in photonic crystal fiber

P. Dainese; St J.P. Russell; G. S. Wiederhecker; N. Joly; H. L. Fragnito; V. Laude; A. Khelif

doi:10.1364/OE.14.004141

Raman-like light scattering from acoustic phonons in photonic crystal fiber

P. Dainese^*, St J.P. Russell, G. S. Wiederhecker, N. Joly, H. L. Fragnito, V. Laude, A. Khelif

^*Corresponding author for this work

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

117 Citations (Scopus)

Abstract

Raman and Brillouin scattering are normally quite distinct processes that take place when light is resonantly scattered by, respectively, optical and acoustic phonons. We show how few-GHz acoustic phonons acquire many of the same characteristics as optical phonons when they are tightly trapped, transversely and close to modal cut-off, inside the wavelength-scale core of an air-glass photonic crystal fiber (PCF). The result is an optical scattering effect that closely resembles Raman scattering, though at much lower frequencies. We use photoacoustic techniques to probe the effect experimentally and finite element modelling to explain the results. We also show by numerical modelling that the cladding structure supports two phononic band gaps that contribute to the confinement of sound in the core.

Original language	English
Pages (from-to)	4141-4150
Number of pages	10
Journal	Optics Express
Volume	14
Issue number	9
DOIs	https://doi.org/10.1364/OE.14.004141
Publication status	Published - 2006
Externally published	Yes

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title = "Raman-like light scattering from acoustic phonons in photonic crystal fiber",

abstract = "Raman and Brillouin scattering are normally quite distinct processes that take place when light is resonantly scattered by, respectively, optical and acoustic phonons. We show how few-GHz acoustic phonons acquire many of the same characteristics as optical phonons when they are tightly trapped, transversely and close to modal cut-off, inside the wavelength-scale core of an air-glass photonic crystal fiber (PCF). The result is an optical scattering effect that closely resembles Raman scattering, though at much lower frequencies. We use photoacoustic techniques to probe the effect experimentally and finite element modelling to explain the results. We also show by numerical modelling that the cladding structure supports two phononic band gaps that contribute to the confinement of sound in the core.",

author = "P. Dainese and Russell, {St J.P.} and Wiederhecker, {G. S.} and N. Joly and Fragnito, {H. L.} and V. Laude and A. Khelif",

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T1 - Raman-like light scattering from acoustic phonons in photonic crystal fiber

AU - Dainese, P.

AU - Russell, St J.P.

AU - Wiederhecker, G. S.

AU - Joly, N.

AU - Fragnito, H. L.

AU - Laude, V.

AU - Khelif, A.

PY - 2006

Y1 - 2006

N2 - Raman and Brillouin scattering are normally quite distinct processes that take place when light is resonantly scattered by, respectively, optical and acoustic phonons. We show how few-GHz acoustic phonons acquire many of the same characteristics as optical phonons when they are tightly trapped, transversely and close to modal cut-off, inside the wavelength-scale core of an air-glass photonic crystal fiber (PCF). The result is an optical scattering effect that closely resembles Raman scattering, though at much lower frequencies. We use photoacoustic techniques to probe the effect experimentally and finite element modelling to explain the results. We also show by numerical modelling that the cladding structure supports two phononic band gaps that contribute to the confinement of sound in the core.

AB - Raman and Brillouin scattering are normally quite distinct processes that take place when light is resonantly scattered by, respectively, optical and acoustic phonons. We show how few-GHz acoustic phonons acquire many of the same characteristics as optical phonons when they are tightly trapped, transversely and close to modal cut-off, inside the wavelength-scale core of an air-glass photonic crystal fiber (PCF). The result is an optical scattering effect that closely resembles Raman scattering, though at much lower frequencies. We use photoacoustic techniques to probe the effect experimentally and finite element modelling to explain the results. We also show by numerical modelling that the cladding structure supports two phononic band gaps that contribute to the confinement of sound in the core.

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DO - 10.1364/OE.14.004141

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VL - 14

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EP - 4150

JO - Optics Express

JF - Optics Express

IS - 9

ER -

Raman-like light scattering from acoustic phonons in photonic crystal fiber

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