DOIAbstract
18th EISCAT symposiumSession E1: Radar and lidar techniquesMay 30 (Tue), Poster Sessio
18th EISCAT symposiumSession E1: Radar and lidar techniquesMay 30 (Tue), Poster Sessio
The Jicamarca Radio Observatory (JRO) two-dimensional square array radar system operating at ~ 6-m w...
Observing the Moon by a monostatic synthetic-aperture radar system has the inherent problem that any...
Many questions of lunar science remain unanswered because of a lack of specific data. With the poten...
Remote sensing of planetary surfaces is an effective method for gaining knowledge of the processes t...
As part of an effort to further understand the geologic utility of radar studies of the terrestrial ...
High resolution radar data for the lunar surface were acquired over 14 sites in June and November 19...
Remote sensing of planetary surfaces is an effective method for gaining knowledge of the processes t...
Radar backscattering of lunar surface studied for circular and linear polarization of wave
Supersynthesis and delay-Doppler methods of mapping radar echo power distribution across lunar surfa...
Lunar radar studies - unambiguous coherent radar mapping at 23 cm, high-resolution 3.8-cm reflectivi...
Lunar radar echoes at 6 and 12 m wavelengths analyzed to obtain lunar surface scattering dat
Radar study of lunar surface - scattering of radio waves, polarization observations, shadowing effec...
Studies of the moon during the period of the grant revolved around the issues of the possible presen...
Previous radar mappings of the Moon at 70 cm wavelength in the late 1960's by Thompson have been rep...
Abstract—We present our effort for producing a high-resolution 32-cm wavelength synthetic aperture r...
The Jicamarca Radio Observatory (JRO) two-dimensional square array radar system operating at ~ 6-m w...
Observing the Moon by a monostatic synthetic-aperture radar system has the inherent problem that any...
Many questions of lunar science remain unanswered because of a lack of specific data. With the poten...
Remote sensing of planetary surfaces is an effective method for gaining knowledge of the processes t...
As part of an effort to further understand the geologic utility of radar studies of the terrestrial ...
High resolution radar data for the lunar surface were acquired over 14 sites in June and November 19...
Remote sensing of planetary surfaces is an effective method for gaining knowledge of the processes t...
Radar backscattering of lunar surface studied for circular and linear polarization of wave
Supersynthesis and delay-Doppler methods of mapping radar echo power distribution across lunar surfa...
Lunar radar studies - unambiguous coherent radar mapping at 23 cm, high-resolution 3.8-cm reflectivi...
Lunar radar echoes at 6 and 12 m wavelengths analyzed to obtain lunar surface scattering dat
Radar study of lunar surface - scattering of radio waves, polarization observations, shadowing effec...
Studies of the moon during the period of the grant revolved around the issues of the possible presen...
Previous radar mappings of the Moon at 70 cm wavelength in the late 1960's by Thompson have been rep...
Abstract—We present our effort for producing a high-resolution 32-cm wavelength synthetic aperture r...
The Jicamarca Radio Observatory (JRO) two-dimensional square array radar system operating at ~ 6-m w...
Observing the Moon by a monostatic synthetic-aperture radar system has the inherent problem that any...
Many questions of lunar science remain unanswered because of a lack of specific data. With the poten...
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