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New measurements of the water vapor continuum in the region from 0.3 to 2.7 THz |
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| Authors: | V.B. Podobedov D.F. Plusquellic G.T. Fraser R.H. Tipping |
| Affiliation: | a Optical Technology Division, National Institute of Standards and Technology, Gaithersburg, MD 20899, USA b NASA Goddard Institute for Space Studies, and Department of Applied Physics and Applied Mathematics, Columbia University, 2880 Broadway, New York, NY 10025, USA c Department of Physics and Astronomy, University of Alabama, Tuscaloosa, AL 35487, USA |
| Abstract: | We present a spectroscopic study of the water vapor continuum absorption in the far-IR region from 10 to 90 cm−1 (0.3-2.7 THz). The experimental technique combines a temperature-stabilized multipass absorption cell, a polarizing (Martin-Puplett) interferometric spectrometer, and a liquid-He-cooled bolometer detector. The contributions to the absorbance resulting from the structureless H2O-H2O and H2O-N2 continua have been measured in the temperature range from 293 to 333 K with spectral resolution of 0.04-0.12 cm−1. The resonant water vapor spectrum was modeled using the HITRAN04 database and a Van Vleck-Weisskopf lineshape function with a 100 cm−1 far-wing cut-off. Within experimental uncertainty, both the H2O-H2O and H2O-N2 continua demonstrate nearly quadratic dependencies of absorbance on frequency with, however, some deviation near the 2.5 THz window. The absorption coefficients of 3.83 and 0.185 (dB/km)/(kPa THz)2 were measured for self- and foreign-gas continuum, respectively. The corresponding temperature exponents were found to be 8.8 and 5.7. The theoretically predicted foreign continuum is presented and a reasonable agreement with experiment is obtained. |
| Keywords: | Continuum IR THz Nitrogen Water vapor Atmosphere |
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