Over the past decade, a series of airborne experiments in the Arctic and Antarctica explored
microwave emission from sea ice and ice sheets at frequencies from 0.5 to 2 GHz. The …

Arctic sea-ice thickness and salinity retrievals are simulated to explore the performance of
nadir-observing microwave radiometry operating with up to 16 frequency channels in the 0.5 …

An airborne microwave wide-band radiometer (500–2000 MHz) was operated for the first
time in Antarctica to better understand the emission properties of sea ice, outlet glaciers and …

The Gulf of Ob is a unique ecosystem characterized by a complex interaction of river and
sea factors. It is exposed to extremely strong seasonal pressure of highly variable …

Airborne 0.5–2 GHz brightness temperatures were collected along a transect of the Priestley
Glacier, Northern Victoria Land, Antarctica that coincides with previously acquired 189–199 …

Arctic sea ice is changing rapidly. Its retreat significantly impacts Arctic heat fluxes, ocean
currents, and ecology, warranting the continuous monitoring and tracking of changes to sea …

The retrieval of sea ice thickness using L-band passive remote sensing requires robust
models for emission from sea ice. In this work, measurements obtained from surface-based …

Arctic sea ice is changing rapidly. Its retreat significantly impacts Arctic heat fluxes, ocean
currents, and ecology, warranting the continuous monitoring and tracking of changes to sea …

The paper presents a model of microwave emission from mouth regions of Arctic rivers
taking into account radiometer pixel contamination by land. Modeling of seasonal and …

Sea ice is one of the most important components of Earth's cryosphere that regulates heat
flow between the ocean and atmosphere, impacts water cycles and oceanic currents due to …