Add to ORKGRecent observations of the millimeter-wave emission from Venus at 112 GHz (2.6 mm) have shown significant variations in the continuum flux emission that may be attributed to the variability in the abundances of absorbing constituents in the Venus atmosphere. Such constituents include gaseous H2SO4, SO2, and liquid sulfuric acid (cloud condensates). Recently, Fahd and Steffes have shown that the effects of liquid H, SO4, and gaseous SO2 cannot completely account for this measured variability in the millimeter-wave emission of Venus. Thus, it is necessary to study the effect of gaseous H2SO4 on the millimeter-wave emission of Venus. This requires knowledge of the millimeter-wavelength (MMW) opacity of gaseous H2SO4, which unfortunately has ne...
The Venus Express radio science experiment VeRa provided more than 900 neutral atmospheric profiles ...
In order to characterize possible variations in the abundance and distribution of subcloud sulfuric ...
The opportunity to determine the planetwide temperature and cloud structure of Venus using radio occ...
High-accuracy laboratory measurements of the temperature dependence of the opacity from gaseous sulf...
The microwave absorbing properties of gaseous sulfuric acid (H2SO4) under Venus atmospheric conditio...
Radio absorptivity data for the Venus middle atmosphere (1 to 6 atm, temperatures from 500 to 575K) ...
The effects of the Venus atmospheric constituents on its millimeter wavelength emission are investig...
The objective of this research is to develop a mathematical model that accurately estimates the opac...
Brightness temperature spectra of Venus computed to determine amount of water vapor in lower atmosph...
The sulphur cycle plays fundamental roles in the chemistry and climate of Venus. Thermodynamic equil...
Radio occultation experiments, and radio astronomical observations have suggested that significant v...
Theoretical and investigation calculations of Venus brightness temperature, and radio emission pecul...
The Venus Express (VEX) Radio Science experiment VeRa utilizes radio occultation techniques to inves...
Accurate data on microwave and millimeter-wave properties of potential planetary atmospheric constit...
Abstract The observation of a 266.94 GHz feature in the Venus spectrum has been attri...
The Venus Express radio science experiment VeRa provided more than 900 neutral atmospheric profiles ...
In order to characterize possible variations in the abundance and distribution of subcloud sulfuric ...
The opportunity to determine the planetwide temperature and cloud structure of Venus using radio occ...
High-accuracy laboratory measurements of the temperature dependence of the opacity from gaseous sulf...
The microwave absorbing properties of gaseous sulfuric acid (H2SO4) under Venus atmospheric conditio...
Radio absorptivity data for the Venus middle atmosphere (1 to 6 atm, temperatures from 500 to 575K) ...
The effects of the Venus atmospheric constituents on its millimeter wavelength emission are investig...
The objective of this research is to develop a mathematical model that accurately estimates the opac...
Brightness temperature spectra of Venus computed to determine amount of water vapor in lower atmosph...
The sulphur cycle plays fundamental roles in the chemistry and climate of Venus. Thermodynamic equil...
Radio occultation experiments, and radio astronomical observations have suggested that significant v...
Theoretical and investigation calculations of Venus brightness temperature, and radio emission pecul...
The Venus Express (VEX) Radio Science experiment VeRa utilizes radio occultation techniques to inves...
Accurate data on microwave and millimeter-wave properties of potential planetary atmospheric constit...
Abstract The observation of a 266.94 GHz feature in the Venus spectrum has been attri...
The Venus Express radio science experiment VeRa provided more than 900 neutral atmospheric profiles ...
In order to characterize possible variations in the abundance and distribution of subcloud sulfuric ...
The opportunity to determine the planetwide temperature and cloud structure of Venus using radio occ...