Title :
Utilization of radiation coupling effects to analyze subsurface structures of complex dielectric bodies
Author :
Plettemeier, D. ; Landman, D. ; Balling, S. ; Baganz, N. ; Sawitzki, A. ; Gonschorek, K.H.
Abstract :
The inverse scattering problem described in this paper is part of the quasi-tomographic comet nucleus sounding experiment CONSERT of the comet-mission Rosetta. This part of the experiment is based on the utilization of radiation coupling effects between the CONSERT antenna system on the Rosetta-Lander and the subsurface structure of the comet nucleus in the vicinity of the Lander. The scientific aim of this part of CONSERT is the reconstruction of the subsurface structure at the landing site, especially in view of the still open question: "Is a comet nucleus surround by a dust layer or not?". To solve this inverse scattering problem the line-of-sight link between Rosetta Orbiter and Lander will be used to measure the back lobes of the CONSERT Lander antenna with high angular resolution.
Keywords :
cometary nuclei; dielectric bodies; electromagnetic coupling; electromagnetic wave scattering; inverse problems; planetary surfaces; radioastronomical techniques; satellite antennas; space vehicles; CONSERT antenna system; Rosetta lander; Rosetta orbiter; angular resolution; comet-mission; complex dielectric body; inverse scattering problem; line-of-sight link; quasitomographic comet nucleus; radiation coupling effect; subsurface structure analysis; Antenna measurements; Dielectrics; Dipole antennas; Electromagnetic compatibility; Electromagnetic radiation; Extraterrestrial measurements; Instruments; Inverse problems; Laboratories; Surface topography;
Conference_Titel :
Electromagnetic Compatibility and Electromagnetic Ecology, 2005. IEEE 6th International Symposium on
Print_ISBN :
0-7803-9374-0
DOI :
10.1109/EMCECO.2005.1513117
