Evaluation and Application of SMRT Model for L-Band Brightness Temperature Simulation in Arctic Sea Ice

Abstract: Using L-band microwave radiative transfer theory to retrieve ice and snow parameters is one of the focuses of Arctic research. At present, due to limitations of frequency and substrates, few operational microwave radiative transfer models can be used to simulate L-band brightness temperature (TB) in Arctic sea ice. The snow microwave radiative transfer (SMRT) model, developed with the support of the European Space Agency in 2018, has been used to simulate high-frequency TB in polar regions and has obtained goo… Show more

“…The brightness temperature measured by passive microwave sensors from emitted radiation by sea ice can be influenced by the brine volume of sea ice. Also, the backscattering of sea ice is influenced by the presence of gas bubbles in the sea ice [20][21][22]. Thus, the ice microstructure based IOPs is important for simulating and predicting various radiative processes that influence sea ice variation and should be taken into account in sea ice models.…”

Effects of Ice-Microstructure-Based Inherent Optical Properties Parameterization in the CICE Model

“…The brightness temperature measured by passive microwave sensors from emitted radiation by sea ice can be influenced by the brine volume of sea ice. Also, the backscattering of sea ice is influenced by the presence of gas bubbles in the sea ice [20][21][22]. Thus, the ice microstructure based IOPs is important for simulating and predicting various radiative processes that influence sea ice variation and should be taken into account in sea ice models.…”

Effects of Ice-Microstructure-Based Inherent Optical Properties Parameterization in the CICE Model