Journal ArticleDOI
MPM—An atmospheric millimeter-wave propagation model
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TLDR
In this paper, the authors characterized the neutral atmosphere for the frequency range from 1 to 300 GHz as a nonturbulent propagation medium and predicted attenuation and propagation delay effects from meteorological data sets: pressure, temperature, humidity, suspended particle concentration, and rain rate.Abstract:
The neutral atmosphere is characterized for the frequency range from 1 to 300 GHz as a nonturbulent propagation medium. Attenuation and propagation delay effects are predicted from meteorological data sets: pressure, temperature, humidity, suspended particle concentration, and rain rate. The physical data base of the propagation model consists of four terms: (a) resonance information for 30 water vapor and 48 oxygen absorption lines in the form of intensity coefficients and center frequency for each line; (b) a composite (oxygen, water vapor, and nitrogen) continuum spectrum; (c) a hydrosol attenuation term for haze, fog, ,and cloud conditions; and (d) a rain attenuation model. Oxygen lines extend into the mesosphere, where they behave in a complicated manner due to the Zeeman effect. The geomagnetic field strength H is required as an additional input parameter. Each 02 line splits proportionally with H into numerous, sub-lines, which are juxtaposed to form a Zeeman pattern spread over a megahertz scale. Patterns for three main polarization cases are calculated. Detailed examples for model atmospheres provide basic millimeter wave propagation information over the height range 0 to 100 km of the neutral atmosphere.read more
Citations
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A Composite Model for Estimation of Polarimetric Thermal Emission from Foam-Covered Wind-Driven Ocean Surface
Y. Zhang,Y. E. Yang,Jin Au Kong +2 more
TL;DR: In this article, the authors presented theoretical studies of polarimetric thermal emission from foam-covered ocean surface based on a com- posite volume and rough surface scattering model using the radiative transfer theory.
Journal ArticleDOI
Surface‐based radiometric observations of water vapor and cloud liquid in the temperate zone and in the tropics
J. B. Snider,D. A. Hazen +1 more
TL;DR: In this article, surface-based microwave radiometers operating near 20, 23, 31, and 90 GHz were used to collect data of water vapor and cloud liquid for a 1-year period at an island in the North Atlantic Ocean and an island and ship in the tropical western Pacific Ocean.
Journal ArticleDOI
On the Use of Radiometric Measurements to Estimate Atmospheric Attenuation at 100 and 300 GHz
Abstract: At frequencies of between 100 GHz and 30 THz, propagation conditions are severely affected by the influence of the composition and phenomena of the troposphere. This paper focuses on the use of radiometric measurements to estimate attenuation at 100 and 300 GHz, considering non-scattering scenarios, in which the main contributions are given by atmospheric gases and non-rainy clouds. These techniques allow the estimation of the absorption loss through the entire atmosphere, without the need for a signal source situated in a satellite or a high altitude aircraft. On the basis of well-accepted absorption models, the results of calculating gaseous, cloud, and total attenuation using 3-year meteorological data from Madrid, Spain, are detailed, as well as estimates of the expected values of the sky brightness temperature as measured by the radiometer. Finally, based on the results obtained, a discussion on the use of radiometric measurements at both frequencies is presented, in connection with an experimental campaign currently under preparation.
Journal ArticleDOI
Attenuation of terahertz transmission through rain
Yi Luo,Wan-xia Huang,Zi-yi Luo +2 more
TL;DR: Based on the Marshall-Palmer, Weibull raindrop size distribution and Mie electromagnetic scattering model, the relationships of attenuation coefficient of terahertz (THz) atmospheric window waves with precipitation rate and temperature are studied in this paper.
Journal ArticleDOI
A simple analytical parameterization for the water vapor millimeter wave foreign continuum
Q. Ma,R. H. Tipping +1 more
TL;DR: In this article, NASA/Goddard Institute for Space Studies and Department of Applied Physics, Columbia University; Department of Physics and Astronomy, University of Alabama have proposed a method to detect the presence of the Earth's magnetic field.
References
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Journal ArticleDOI
The aR b relation in the calculation of rain attenuation
R. Olsen,D. Rogers,D. Hodge +2 more
TL;DR: In this paper, the empirical relation A = aR^{b} between the specific attenuation A and the rain rate R is used in the calculation of rain attenuation statistics.
Journal ArticleDOI
An updated model for millimeter wave propagation in moist air
TL;DR: In this article, a practical atmospheric millimeter-wave propagation model (MPM) is proposed to predict attenuation for dry air at 2.5-430 GHz. But the model is limited to frequencies below 300 GHz and the number of spectroscopic parameters can be reduced to less than 200.
Journal ArticleDOI
Electromagnetic wave propagation and scattering in rain and other hydrometeors
TL;DR: In this paper, the authors review the theories and results of numerical calculations of interactions between hydrometeors and microwaves or millimeter waves propagating in media containing these hydrometers.
Journal ArticleDOI
Millimeter-wave attenuation and delay rates due to fog/cloud conditions
TL;DR: In this paper, the propagation properties of suspended water and ice particles which make up atmospheric haze, fog, and clouds were examined for microwave and millimeter-wave frequencies, and the rates of attenuation alpha (dB/km) and delay tau (ps/km), derived from a complex refractivity based on the Rayleigh absorption approximation of Mie's scattering theory, were derived.
Journal ArticleDOI
Interference coefficients for overlapping oxygen lines in air
TL;DR: In this article, the interference coefficients were determined for the 5-mm wavelength oxygen lines broadened by air and solved by the Twomey-Tikhonov method, which minimizes a cost function, subject to the condition of constant measurement error variance.
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