Space VLBI at Low Frequencies

Jones, D. L.; Allen, R.; Basart, J.; Bastian, T.; Blume, W.; Bougeret, J.-L.; Dennison, B.; Desch, M.; Dwarakanath, K.; Erickson, W.; Farrell, W.; Finley, D.; Gopalswamy, N.; Howard, R.; Kaiser, M.; Kassim, N.; Kuiper, T.; MacDowall, R.; Mahoney, M.; Perley, R.; Preston, R.; Reiner, M.; Rodriguez, P.; Stone, R.; Unwin, S.; Weiler, K.; Woan, G.; Woo, R.
Referencia bibliográfica

Astrophysical Phenomena Revealed by Space VLBI, Proceedings of the VSOP Symposium, held at the Institute of Space and astronautical Science, Sagamihara, Kanagawa, Japan, January 19 - 21, 2000, Eds.: H. Hirabayashi, P.G. Edwards, and D.W. Murphy, Published by the Institute of Space and Astronautical Science, p. 265-268.

Fecha de publicación:
4
2000
Número de autores
28
Número de autores del IAC
0
Número de citas
0
Número de citas referidas
0
Descripción
At sufficiently low frequencies, no ground-based radio array will be able to produce high resolution images while looking through the ionosphere. A space-based array will be needed to explore the objects and processes which dominate the sky at the lowest radio frequencies. An imaging radio interferometer based on a large number of small, inexpensive satellites would be able to track solar radio bursts associated with coronal mass ejections out to the distance of Earth, determine the frequency and duration of early epochs of nonthermal activity in galaxies, and provide unique information about the interstellar medium. This would be a ``space-space" VLBI mission, as only baselines between satellites would be used. Angular resolution would be limited only by interstellar and interplanetary scattering.