Long transequatorial interconnecting loops of the new solar cycle
Abstract
We study two long transequatorial loops connecting high-latitude regions of the new solar cycle. These loops (with lengths of 47 and 61 heliographic degrees) provide evidence that the upper length limit of 37° found by Chase et al. (1976) from Skylab data was determined simply by the typical distances between northern and southern active regions during the period of Skylab observations. We find strong support for the idea that these long interconnecting loops originate through reconnection of field lines extending from the two active regions towards and beyond the equator, and confirm the earlier finding by Canfield, Pevtsov, and McClymont (1996) that only field lines from active regions with the same chirality reconnect. As we are not aware of any longitudinal (E-W) loops of comparable lengths, we suggest that it is mainly the solar differential rotation which drives the reconnection of latitudinal (N-S) field lines.
- Publication:
-
Solar Physics
- Pub Date:
- June 1999
- DOI:
- 10.1023/A:1005123319045
- Bibcode:
- 1999SoPh..187...33F
- Keywords:
-
- Active Region;
- Solar Cycle;
- Strong Support;
- Field Line;
- Differential Rotation