Micro-Brillouin scattering from a single isolated nanosphere

Y. Li; H. S. Lim; S. C. Ng; Z. K. Wang; M. H. Kuok; E. Vekris; V. Kitaev; F. C. Peiris; G. A. Ozin

doi:10.1063/1.2164924

Micro-Brillouin scattering from a single isolated nanosphere

Y. Li
, H. S. Lim
, S. C. Ng
, Z. K. Wang
, M. H. Kuok^*
, E. Vekris
, V. Kitaev
, F. C. Peiris
, G. A. Ozin

^*Corresponding author for this work

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

30 Scopus citations

Abstract

Inelastic light scattering from a single isolated silica sphere, of diameter as small as 260 nm, has been measured as a function of sphere size by micro-Brillouin spectroscopy. The feasibility of recording spectra of a sample as tiny as this, and for which only one particle is needed, further enhances the capabilities of Brillouin light scattering as a powerful investigative tool. Such measurements afford the evaluation of the elastic properties of single nanospheres and a determination of the size polydispersity of an aggregate of particles from the asymmetric broadening of its Brillouin spectrum. Unlike conventional Brillouin scattering from acoustic waves, what is observed here is the inelastic scattering from the eigenvibrations of a nanosphere.

Original language	English
Article number	023112
Pages (from-to)	1-3
Number of pages	3
Journal	Applied Physics Letters
Volume	88
Issue number	2
DOIs	https://doi.org/10.1063/1.2164924
State	Published - 2006
Externally published	Yes

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10.1063/1.2164924

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title = "Micro-Brillouin scattering from a single isolated nanosphere",

abstract = "Inelastic light scattering from a single isolated silica sphere, of diameter as small as 260 nm, has been measured as a function of sphere size by micro-Brillouin spectroscopy. The feasibility of recording spectra of a sample as tiny as this, and for which only one particle is needed, further enhances the capabilities of Brillouin light scattering as a powerful investigative tool. Such measurements afford the evaluation of the elastic properties of single nanospheres and a determination of the size polydispersity of an aggregate of particles from the asymmetric broadening of its Brillouin spectrum. Unlike conventional Brillouin scattering from acoustic waves, what is observed here is the inelastic scattering from the eigenvibrations of a nanosphere.",

author = "Y. Li and Lim, \{H. S.\} and Ng, \{S. C.\} and Wang, \{Z. K.\} and Kuok, \{M. H.\} and E. Vekris and V. Kitaev and Peiris, \{F. C.\} and Ozin, \{G. A.\}",

year = "2006",

doi = "10.1063/1.2164924",

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T1 - Micro-Brillouin scattering from a single isolated nanosphere

AU - Li, Y.

AU - Lim, H. S.

AU - Ng, S. C.

AU - Wang, Z. K.

AU - Kuok, M. H.

AU - Vekris, E.

AU - Kitaev, V.

AU - Peiris, F. C.

AU - Ozin, G. A.

PY - 2006

Y1 - 2006

N2 - Inelastic light scattering from a single isolated silica sphere, of diameter as small as 260 nm, has been measured as a function of sphere size by micro-Brillouin spectroscopy. The feasibility of recording spectra of a sample as tiny as this, and for which only one particle is needed, further enhances the capabilities of Brillouin light scattering as a powerful investigative tool. Such measurements afford the evaluation of the elastic properties of single nanospheres and a determination of the size polydispersity of an aggregate of particles from the asymmetric broadening of its Brillouin spectrum. Unlike conventional Brillouin scattering from acoustic waves, what is observed here is the inelastic scattering from the eigenvibrations of a nanosphere.

AB - Inelastic light scattering from a single isolated silica sphere, of diameter as small as 260 nm, has been measured as a function of sphere size by micro-Brillouin spectroscopy. The feasibility of recording spectra of a sample as tiny as this, and for which only one particle is needed, further enhances the capabilities of Brillouin light scattering as a powerful investigative tool. Such measurements afford the evaluation of the elastic properties of single nanospheres and a determination of the size polydispersity of an aggregate of particles from the asymmetric broadening of its Brillouin spectrum. Unlike conventional Brillouin scattering from acoustic waves, what is observed here is the inelastic scattering from the eigenvibrations of a nanosphere.

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U2 - 10.1063/1.2164924

DO - 10.1063/1.2164924

M3 - 文章

AN - SCOPUS:30744477438

SN - 0003-6951

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SP - 1

EP - 3

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 2

M1 - 023112

ER -

Micro-Brillouin scattering from a single isolated nanosphere

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