Abstract A magnetic field line topology with nulls, generated by superimposing a uniform magnetic field onto the field from a distributed ring current, is analyzed. This simple model, which is reminiscent of the structures found in laboratory field reversed configurations and detached plasmoids, is amenable to substantial analytical progress and also facilitates the visualization of the three dimensional field geometry. Four nulls are seen to exist and representative field lines and tubes of flux found by numerical integration are presented. An infinite number of topologically distinct flux bundles is found. These are distinguished by the number of times they encircle a circular magnetic field line. A convenient mapping is described which proves very useful in distinguishing between and following the paths of the different tubes of flux as they traverse through the null system. The separatrices that divide these flux bundles are described. The complexities already present in this simple but nontrivial con...
[1]
J. Finn,et al.
Three-dimensional kinematic reconnection of plasmoids
,
1991
.
[2]
J. Birn,et al.
Filamentary structure of a three‐dimensional plasmoid
,
1989
.
[3]
J. M. Greene.
Geometrical properties of three‐dimensional reconnecting magnetic fields with nulls
,
1988
.
[4]
D. Stern.
The role of O-type neutral lines in magnetic merging during substorms and solar flares
,
1979
.
[5]
T. Tsuda,et al.
Topological study of magnetic field near a neutral point
,
1975
.
[6]
S. Cowley.
A qualitative study of the reconnection between the Earth's magnetic field and an interplanetary field of arbitrary orientation
,
1973
.
[7]
D. Stern.
A study of the electric field in an open magnetospheric model
,
1973
.