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Highly efficient fluorescence sensing with hollow core photonic crystal fibers
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Abstract
We investigate the potential of microstructured optical fibers (MOFs) for highly sensitive
absorption and fluorescence measurements by infiltrating a dye solution in the holey
structure. Generally in a MOF only the evanescent part of the electromagnetic field
penetrates into the sample material, providing a weak light-matter interaction. We
compare such a MOF with a selectively filled hollow core photonic crystal fiber (HCPCF),
in which most of the field energy propagates in the sample material. We show that
dye concentrations down to 1x10(-10) M can be detected in a HCPCF using only nanoliter
sample volumes. Our experiments proof that HCPCFs are well suited for demanding sensing
applications, outperforming existing fiber tools that rely on evanescent sensing.