The transition from localized to collective electronic states in a silver quantum dots monolayer examined by nonlinear optical response

F. Remacle; C. P. Collier; J. R. Heath; R. D. Levine

doi:10.1016/S0009-2614(98)00612-5

The transition from localized to collective electronic states in a silver quantum dots monolayer examined by nonlinear optical response

F. Remacle, C. P. Collier, J. R. Heath, R. D. Levine^*

^*Corresponding author for this work

Institute of Chemistry

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

38 Scopus citations

Abstract

The optical second-harmonic response of a finite hexagonal lattice is computed as a function of the inter particle separation. In agreement with experiments on Langmuir monolayers of silver quantum dots, the computed response exhibits a peak due to a transition from localized electronic states to a band-like structure. The localization is due to the fluctuations in the particle size and position. For a perfect lattice the variation of the nonlinear response with the inter particle separation is qualitatively different. The role of the symmetry breaking is demonstrated at the tight binding level of electronic structure computations.

Original language	English
Pages (from-to)	453-458
Number of pages	6
Journal	Chemical Physics Letters
Volume	291
Issue number	3-4
DOIs	https://doi.org/10.1016/S0009-2614(98)00612-5
State	Published - 17 Jul 1998

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abstract = "The optical second-harmonic response of a finite hexagonal lattice is computed as a function of the inter particle separation. In agreement with experiments on Langmuir monolayers of silver quantum dots, the computed response exhibits a peak due to a transition from localized electronic states to a band-like structure. The localization is due to the fluctuations in the particle size and position. For a perfect lattice the variation of the nonlinear response with the inter particle separation is qualitatively different. The role of the symmetry breaking is demonstrated at the tight binding level of electronic structure computations.",

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AB - The optical second-harmonic response of a finite hexagonal lattice is computed as a function of the inter particle separation. In agreement with experiments on Langmuir monolayers of silver quantum dots, the computed response exhibits a peak due to a transition from localized electronic states to a band-like structure. The localization is due to the fluctuations in the particle size and position. For a perfect lattice the variation of the nonlinear response with the inter particle separation is qualitatively different. The role of the symmetry breaking is demonstrated at the tight binding level of electronic structure computations.

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The transition from localized to collective electronic states in a silver quantum dots monolayer examined by nonlinear optical response

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