Title :
Terahertz Frequency-Domain Spectroscopy Method for Vector Characterization of Liquid Using an Artificial Dielectric
Author :
Saha, Shimul C. ; Grant, James P. ; Ma, Yong ; Khalid, A. ; Hong, Feng ; Cumming, David R S
Author_Institution :
Electron. & Nanoscale Eng., Univ. of Glasgow, Glasgow, UK
Abstract :
A device for performing vector transmission spectroscopy on aqueous and polar solvent specimens at terahertz frequencies is presented. The device works on the principle of artificial dielectric birefringence by making a microfluidic grating in silicon. The device enables the direct measurement of the complex dielectric function of a liquid, across a wide terahertz band using a Fourier transform infrared spectrometer. Characterization data from a range of liquid specimens, including alcohol, acetone, hydrogen peroxide and whiskies are presented. Using microfluidic sampling, specimen handling is straightforward and direct measurements on strongly terahertz absorbing solvents are possible. The method is scalable to longer or shorter wavelengths.
Keywords :
birefringence; microfluidics; permittivity; spectrochemical analysis; terahertz spectroscopy; terahertz wave spectra; Fourier transform infrared spectrometer; acetone; alcohol; aqueous solvent specimens; artificial dielectric birefringence; hydrogen peroxide; liquid complex dielectric function; liquid vector characterization; microfluidic sampling; polar solvent specimens; silicon microfluidic grating; terahertz absorbing solvents; terahertz frequency domain spectroscopy method; vector transmission spectroscopy; whiskies; Atmospheric measurements; Dielectric measurements; Dielectrics; Gratings; Silicon; Spectroscopy; Vectors; Birefringence; liquid; material properties; spectral method and analysis; spectroscopy; submillimeter-wave devices;
Journal_Title :
Terahertz Science and Technology, IEEE Transactions on
DOI :
10.1109/TTHZ.2011.2177172
