A spectroscopic refractometer based on plasmonic interferometry.

Autor: Jing Feng, Pacifici, Domenico
Předmět:
Zdroj: Journal of Applied Physics; 2016, Vol. 119 Issue 8, p083104-1-083104-8, 8p, 6 Graphs
Abstrakt: We describe the design, fabrication, and testing of a spectroscopic refractometer that employs plasmonic interferometry to measure the optical dielectric functions of materials in the visible range. The proposed device, dubbed a plasmonic refractometer, consists of an array of slit-groove plasmonic interferometers etched in a ~300 nm-thick metal film (silver or gold) with arm lengths varying in steps of 25 nm up to ~8 lm. The nano-groove in each interferometer is able to generate propagating surface plasmon polaritons efficiently in a broad wavelength range, without requiring prism- or grating-coupling configurations. An integrated microfluidic channel ensures uniform delivery of dielectric materials in liquid phase. Spectrally resolved plasmonic interferograms are generated by measuring light transmission spectra through the slit of each slit-groove plasmonic interferometer and plotting the normalized intensity as a function of arm length (0.26-8.16 μm) and incident wavelength (400-800 nm) for various combinations of metal/dielectric materials. Fits of the plasmonic interferograms with a surface plasmon interference model allow determination of the refractive index dispersion of a broad class of dielectric materials, over a wide range of wavelengths and dielectric constants. As proof of concept, we extract and report the dielectric functions of representative materials, such as silver, gold, water, methanol, and ethanol. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index