Open Access Open Access  Restricted Access Subscription Access

Moon Echoes from the 53 MHz MST Radar at Gadanki, India


Affiliations
1 National Atmospheric Research Laboratory, Gadanki 517 112, India
 

In this article we describe the first results from the Moon echo experiment conducted using the 53 MHz MST radar located at Gadanki, India. Observations show that echoes are as strong as 20 dB above noise and these are related to radar returns at normal incidence from places close to the sub-terrestrial point on the Moon. Spectral features of these echoes are narrow, indicating the dominance of quasi-specular scattering process. At higher range, which is also related to higher incidence angle, echo power is found to remarkably decrease. These echoes are characterized with multiple spectral peaks and broader spectral features. Higher-order spectral analysis suggests that multiple spectral peaks are due to discrete multiple scattering centres. Initial results are found to be in agreement with those reported earlier at similar frequencies and are promising. Implications of these results along with the potential and future prospect of the Gadanki MST radar for Earth-based planetary research are discussed.

Keywords

Echo, Moon, MST Radar, Spectral Features.
User
Notifications
Font Size

Abstract Views: 342

PDF Views: 129




  • Moon Echoes from the 53 MHz MST Radar at Gadanki, India

Abstract Views: 342  |  PDF Views: 129

Authors

A. K. Patra
National Atmospheric Research Laboratory, Gadanki 517 112, India
T. Rajendra Prasad
National Atmospheric Research Laboratory, Gadanki 517 112, India

Abstract


In this article we describe the first results from the Moon echo experiment conducted using the 53 MHz MST radar located at Gadanki, India. Observations show that echoes are as strong as 20 dB above noise and these are related to radar returns at normal incidence from places close to the sub-terrestrial point on the Moon. Spectral features of these echoes are narrow, indicating the dominance of quasi-specular scattering process. At higher range, which is also related to higher incidence angle, echo power is found to remarkably decrease. These echoes are characterized with multiple spectral peaks and broader spectral features. Higher-order spectral analysis suggests that multiple spectral peaks are due to discrete multiple scattering centres. Initial results are found to be in agreement with those reported earlier at similar frequencies and are promising. Implications of these results along with the potential and future prospect of the Gadanki MST radar for Earth-based planetary research are discussed.

Keywords


Echo, Moon, MST Radar, Spectral Features.



DOI: https://doi.org/10.18520/cs%2Fv111%2Fi1%2F141-146