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Some Investigations of the Solar Corona: The First Two Years of Observation With the Culgoora Radioheliograph

Published online by Cambridge University Press:  25 April 2016

J. P. Wild*
Affiliation:
Division of RadioPhysics, CSIRO, Sydney

Extract

The first meaningful observation with the 80 MHz Cul-goora radioheliograph was made on 2 September 1967, a few weeks before the instrument was officially commissioned. Systematic observations, normally for 4 to 6 hours per day, began late in February 1968 and the Sun has since been observed on 438 days. The remaining days and many nights have been used for investigations of radio sources and the interplanetary medium and for maintenance and instrumental extension. The standard of reliability thus achieved has been due to the sustained efforts of K. V. Sheridan, W. J. Payten, K. R. McAlister, M. Beard and their colleagues. These first two years have been a period mainly of exploration—a phase of great interest to those engaged in observing, though possibly bewildering to those not. The present review is a first attempt to collate and summarize what has so far been found and where possible to draw preliminary conclusions. The observations to be described and their discussion have been due to a joint effort on the part of a number of workers, particularly G. A. Dulk (on leave from the University of Colorado), K. Kai (on leave from the University of Tokyo), N. R. Labrum, D. J. McLean, A. C. Riddle, K. V. Sheridan, S. F. Smerd, R. T. Stewart, and the present writer. The period has also seen considerable development in the evolution of intricate computer programmes for analysing the data, particularly on the part of L. H. Heisler and D. J. McLean.

Type
Research Article
Copyright
Copyright © Astronomical Society of Australia 1970

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References

1 Wild, J. P. (ed.), ‘The Culgoora Radioheliograph’, Proc. IREE Aun., 28, No. 9 (1967) ; Proc. ASA, 1, 38 (1967).Google Scholar
2 Sheridan, K. V., Proc. ASA, 1, 304 (1970).Google Scholar
3 Leblanc, Y., Astron. & Astrophys., 4, 315 (1970).Google Scholar
4 Riddle, A. C., Proc. ASA, 1, 375 (1970).Google Scholar
5 Riddle, A. C. and Sheridan, K. V., Aust. J. Phys., in press.Google Scholar
6 Kai, K., Solar Phys., 11, 456 (1970).Google Scholar
7 Kai, K., McLean, D. J., Payten, W. J., Sheridan, K. V. and Wild, J. P., Proc. ASA, 1, 79 (1968).Google Scholar
8 McLean, D. J., Proc. ASA, 1, 315 (1970).Google Scholar
9 McLean, D. J., Proc. ASA, 1, 188 (1969).Google Scholar
10 Labrum, N. R., Aust. J. Phys., in press.Google Scholar
11 McLean, D. J., Aust. J. Phys., in press.Google Scholar
12 Labrum, N. R. and Smerd, S. F., Proc. ASA, 1, 140 (1968).Google Scholar
13 Weiss, A. A. and Stewart, R. T., Aust. J. Phys., 18, 143 (1965).Google Scholar
14 Warwick, J. W., Ap. J., 150, 1081 (1967).Google Scholar
15 Labrum, N. R. and Stewart, R. T., Proc. ASA, 1, 316 (1970).Google Scholar
16 Sheridan, K. V., Morimoto, M. and Wild, J. P. in Wild, J. P. (ed.), ‘The Culgoora Radioheliograph’, Proc. IREE Aust., 28, No. 9 (1967), p. 380.Google Scholar
17 Kai, K., Proc. ASA, 1, 186 (1969).Google Scholar
18 Wild, J. P., Proc. ASA, 1, 181 (1969).Google Scholar
19 Wild, J. P., Proceedings of Conference on ‘Plasma Instabilities in Astrophysics’, Asilomar, California, October 1969, pp. 119–38.Google Scholar
20 Altschuler, M. D. and JrNewkirk, G., Solar Phys., 9, 131 (1969).Google Scholar
21 Wild, J. P., Sheridan, K. V. and Kai, K., Nature, 218, 536 (1968).Google Scholar
22 Wild, J. P., Proc. ASA, 1, 137 (1968) ; Sheridan, K. V., Proc. ASA, 1, 138 (1968).Google Scholar
23 Kai, K., and McLean, D. J.., Proc. ASA, 1, 141 (1968).Google Scholar
24 Labrum, N. R., Proc. ASA, 1, 191 (1969).Google Scholar
25 Kai, K., Solar Phys., 10, 460 (1969).Google Scholar
26 Kai, K., Solar Phys., 11, 310 (1970).CrossRefGoogle Scholar
27 Smerd, S. F., Proc. ASA, 1, 305 (1970).Google Scholar
28 Smerd, S. F. and Dulk, G. A., Aust. J. Phys., in press.Google Scholar
29 Krivsky, L., Solar Phys., 9, 194 (1969).Google Scholar
30 Smerd, S. F., Wild, J. P. and Sheridan, K. V., Aust. J. Phys., 15, 180 (1962).CrossRefGoogle Scholar
31 Riddle, A. C., Proc. ASA, 1, 310 (1970).Google Scholar
32 Dulk, G. A., Proc. ASA, 1, 308 (1970).Google Scholar
33 Dulk, G. A., Aust. J. Phys., in press.Google Scholar
34 Grognard, R. J—M., Aust. J. Phys., in press.Google Scholar
35 McLean, D. J., Proc. ASA, 1, 47 (1967).Google Scholar
36 Wild, J. P., Solar Phys., 9 260 (1969).Google Scholar
37 Stewart, R. T. and Sheridan, K. V., Solar Phys., 12, 229 (1970).CrossRefGoogle Scholar
38 Riddle, A. C., Solar Phys., in press, 1970.Google Scholar
39 Sheridan, K. V., Proc. ASA, 1, 376 (1970).Google Scholar
40 Stewart, R. T., Aust. J. Phys., in press.Google Scholar
41 Dulk, G. A., Stewart, R. T., Black, H. C. and Johns, I. A., Aust. J. Phys., in press.Google Scholar
42 Dulk, G. A., Aust. J Phys., in press.Google Scholar
43 Smerd, S. F., Aust. J. Phys., in press.Google Scholar
44 Stewart, R. T., Sheridan, K. V. and Kai, K., Proc. ASA, 1, 313 (1970).Google Scholar
45 McCabe, M. K. and Fisher, R. R., Solar Phys., in press, 1970.Google Scholar
46 Sturrock, P. A. Nature, 211, 695 (1966).Google Scholar
47 Kai, K., Proc. ASA, 1, 189 (1969).Google Scholar
48 Dulk, G. A., Proc. ASA, 1, 372 (1970).Google Scholar