Title :
High-resolution absorption coefficient and refractive index spectra of carbon monoxide gas at millimeter and submillimeter wavelengths
Author :
Almoayed, Nawaf N. ; Afsar, Mohammed N.
Author_Institution :
Dept. of Electr. & Comput. Eng., Tufts Univ., MA
Abstract :
The use of dispersive Fourier transform techniques in interferometry allows the measurement of absorption coefficient and refractive index spectra with great precision. This paper presents the absorption coefficient and refractive index spectra of carbon monoxide (CO) gas at millimeter and submillimeter wavelengths. To assess rotational lines of CO, the gas was measured at four different pressures, giving insight into the behavior of the spectral lines with varying parameters. The measurements in this study demonstrate that varying the pressure of the gas affects only the amplitude of the absorption lines and not their exact position. This is critical in air pollution studies when trying to single out a specific gas from a field sample with unknown constituents
Keywords :
Fourier transform spectroscopy; air pollution measurement; carbon compounds; electromagnetic wave absorption; millimetre wave spectroscopy; radiowave interferometry; refractive index; submillimetre wave spectroscopy; CO; Fourier spectroscopy; absorption coefficient; air pollution; carbon monoxide; dispersive Fourier transform; refractive index; rotational lines; spectral analysis; spectral lines; submillimeter wave spectroscopy; Absorption; Atmospheric measurements; Carbon dioxide; Dispersion; Fourier transforms; Interferometry; Pollution measurement; Refractive index; Submillimeter wave technology; Wavelength measurement; Absorbing media; Fourier spectroscopy; air pollution; millimeter-wave spectroscopy; refraction; spectral analysis; submillimeter-wave spectroscopy;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2006.876406
