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Paper detail

Applying universal scaling laws to identify the best molecular design paradigms for second-order nonlinear optics

We apply scaling and the theory of the fundamental limits of the second-order molecular susceptibility to identify material classes with ultralarge nonlinear-optical response. Size effects are removed by normalizing all nonlinearities to get intrinsic values so that the scaling behavior of a series of molecular homologues can be determined. Several new figures of merit are proposed that quantify the desirable properties for molecules that can be designed by adding a sequence of repeat units, and used in the assessment of the data. Three molecular classes are found. They are characterized by sub-scaling, nominal scaling, or super-scaling. Super-scaling homologues most efficiently take advantage of increased size. We apply our approach to data currently available in the literature to identify the best super-scaling molecular paradigms with the aim of identifying desirable traits of new materials.

preprint2016arXivOpen access
Javier Perez-MorenoShoresh ShafeiMark G. Kuzyk
cond-mat.mtrl-sciphysics.optics
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Javier Perez-MorenoShoresh ShafeiMark G. Kuzyk

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