Nonlinear photonics of fullerene solutions

E.F.Sheka; B.S.Razbirin; A.N.Starukhin; D.K.Nelson; M.Yu. Degunov,; R.N.Lyubovskaya; P.A.Troshin; and N.V.Kamanina

arXiv:0901.3728·cond-mat.mtrl-sci·January 26, 2009·1 cites

Nonlinear photonics of fullerene solutions

E.F.Sheka, B.S.Razbirin, A.N.Starukhin, D.K.Nelson, M.Yu. Degunov,, R.N.Lyubovskaya, P.A.Troshin, and N.V.Kamanina

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TL;DR

This paper investigates the enhanced linear optical effects in fullerene solutions, linking them to molecular clustering and exploring their implications for nonlinear optical applications through empirical and computational analysis.

Contribution

It introduces a novel connection between linear optical enhancements and nonlinear optical behavior in fullerene solutions, supported by empirical and computational tests.

Findings

01

Enhanced linear optical features are due to fullerene clustering.

02

A direct link between linear effects and nonlinear behavior is proposed.

03

Empirical and computational tests support the nonlinear optics potential.

Abstract

Newly observed enhanced linear optical features of fullerene solutions (Raman scattering and one-photon luminescence) are due to clusterization of fullerene molecules themselves as well as their composites with solvent molecules. A direct connection between the enhanced linear effects and nonlinear behavior of the solutions is discussed and empirical and computational tests of the solutions nonlinear optics efficacy are suggested.

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Taxonomy

TopicsNonlinear Optical Materials Studies · Fullerene Chemistry and Applications · Nonlinear Optical Materials Research