Plasma wave source location using CLUSTER as a spherical wave telescope

Abstract

The use of sensor arrays in space opens up the possibility to investigate the source location of plasma waves. In order to do so, we generalize the wave telescope technique to use spherical waves instead of plane waves. The new tool determines the center of the wavefronts locally measured by the sensor array. This virtual source can be related with the position of the source generating the detected waves provided the wave propagation mode and medium properties are known. Moreover, the motion of the source region can be derived, as well as its basic geometrical characteristics. In this work we give the theoretical background for the new tool and examples of location analysis based on synthetic data. An example based on CLUSTER magnetic field data in the dayside magnetosheath reveals a virtual source region elongated in the magnetic field direction, moving with the plasma flow in the vicinity of the spacecraft configuration.

BibTeX
@article{id908,
  author = {Constantinescu, O. and Glassmeier, K. and Motschmann, U. and Treumann, R. and Fornacon, K. and Franz, M.},
  doi = {10.1029/2005JA011550},
  journal = {Journal Of Geophysical Research-Space Physics},
  language = {en},
  title = {Plasma wave source location using CLUSTER as a spherical wave telescope},
  volume = {111},
  year = {2006},
}
EndNote
%O Journal Article
%A Constantinescu, O.
%A Glassmeier, K.
%A Motschmann, U.
%A Treumann, R.
%A Fornacon, K.
%A Franz, M.
%R 10.1029/2005JA011550
%J Journal Of Geophysical Research-Space Physics
%G en
%T Plasma wave source location using CLUSTER as a spherical wave telescope
%V 111
%D 2006