Add to ORKGThis paper presents a new, purely physical approach to simulate ice-particle scattering at microwave frequencies. Temperature-dependent ice particle size distributions measured by aircraft in midlatitude frontal systems are used to represent the distribution of precipitation-sized frozen hydrometeors above the freezing level through derived radar reflectivity–snow water content (Z–M) relationships. The discrete dipole approximation is employed to calculate optical properties of selected types of idealized nonspherical ice particles (hexagonal columns, four-arm rosettes, and six-arm rosettes). Based on those assumptions, passive microwave optical properties are calculated using radar observations from Gotland Island in the Baltic Sea. These ...
This database is from the paper: Ding, J., L. Bi, P. Yang, G. W. Kattawar, F. Weng, Q. Liu, and T. G...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main ...
Dual-polarized airborne passive microwave (PM) brightness temperatures (Tb) at 6.9 GHz H/V, 19 GHz H...
[1] The single-scattering properties of ice crystals are fundamental to the radiative transfer in ic...
To simulate passive microwave radiances in all-sky conditions requires better knowledge of the scatt...
A simplified approach is presented for assessing the microwave response to the initial melting of re...
In this study, two different particle models describing the structure and electromagnetic properties...
Because microwave brightness temperatures emitted by snow covered surfaces are highly variable, snow...
In this article, brightness temperatures observed by channels of the Advanced Microwave Sounding Uni...
The scattering properties of ice crystals at centimeter and millimeter wavelengths are fundamental f...
Passive microwave brightness temperatures (T(B)\u27s) at 92 and 183 GHz from an aircraft thunderstor...
Clouds consisting of ice particles have a crucial role in our climate system and profoundly influ- e...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main er...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main er...
Microwave remote sensing by satellites is important for global observations of ice hydrometeors. Int...
This database is from the paper: Ding, J., L. Bi, P. Yang, G. W. Kattawar, F. Weng, Q. Liu, and T. G...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main ...
Dual-polarized airborne passive microwave (PM) brightness temperatures (Tb) at 6.9 GHz H/V, 19 GHz H...
[1] The single-scattering properties of ice crystals are fundamental to the radiative transfer in ic...
To simulate passive microwave radiances in all-sky conditions requires better knowledge of the scatt...
A simplified approach is presented for assessing the microwave response to the initial melting of re...
In this study, two different particle models describing the structure and electromagnetic properties...
Because microwave brightness temperatures emitted by snow covered surfaces are highly variable, snow...
In this article, brightness temperatures observed by channels of the Advanced Microwave Sounding Uni...
The scattering properties of ice crystals at centimeter and millimeter wavelengths are fundamental f...
Passive microwave brightness temperatures (T(B)\u27s) at 92 and 183 GHz from an aircraft thunderstor...
Clouds consisting of ice particles have a crucial role in our climate system and profoundly influ- e...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main er...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main er...
Microwave remote sensing by satellites is important for global observations of ice hydrometeors. Int...
This database is from the paper: Ding, J., L. Bi, P. Yang, G. W. Kattawar, F. Weng, Q. Liu, and T. G...
Microwave remote sensing is important for observing the mass of ice hydrometeors. One of the main ...
Dual-polarized airborne passive microwave (PM) brightness temperatures (Tb) at 6.9 GHz H/V, 19 GHz H...