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Multiphoton-Excited Fluorescence of Silicon-Vacancy Color Centers in Diamond (1704.01493v1)

Published 5 Apr 2017 in physics.optics

Abstract: Silicon-vacancy color centers in nanodiamonds are promising as fluorescent labels for biological applications, with a narrow, non-bleaching emission line at 738\,nm. Two-photon excitation of this fluorescence offers the possibility of low-background detection at significant tissue depth with high three-dimensional spatial resolution. We have measured the two-photon fluorescence cross section of a negatively-charged silicon vacancy (SiV$-$) in ion-implanted bulk diamond to be $0.74(19) \times 10{-50}{\rm cm4\;s/photon}$ at an excitation wavelength of 1040\,nm. In comparison to the diamond nitrogen vacancy (NV) center, the expected detection threshold of a two-photon excited SiV center is more than an order of magnitude lower, largely due to its much narrower linewidth. We also present measurements of two- and three-photon excitation spectra, finding an increase in the two-photon cross section with decreasing wavelength, and discuss the physical interpretation of the spectra in the context of existing models of the SiV energy-level structure.

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