Research output: Contribution to journal › Article › peer-review
METHOD FOR CONFINING THE MAGNETIC-FIELD OF THE CROSS-TAIL CURRENT INSIDE THE MAGNETOPAUSE. / SOTIRELIS, T; TSYGANENKO, NA; STERN, DP.
In: JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE, Vol. 99, No. A10, 01.10.1994, p. 19393-19402.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - METHOD FOR CONFINING THE MAGNETIC-FIELD OF THE CROSS-TAIL CURRENT INSIDE THE MAGNETOPAUSE
AU - SOTIRELIS, T
AU - TSYGANENKO, NA
AU - STERN, DP
PY - 1994/10/1
Y1 - 1994/10/1
N2 - A method is presented for analytically representing the magnetic field due to the cross-tail current and its closure on the magnetopause. It is an extension of a method used by Tsyganenko (1989b) to confine the dipole field inside an ellipsoidal magnetopause using a scalar potential. Given a model of the cross-tail current, the implied net magnetic field is obtained by adding to the cross-tail current field a potential field B = -delgamma, which makes all field lines divide into two disjoint groups, separated by the magnetopause (i.e., the combined field is made to have zero normal component with the magnetopause). The magnetopause is assumed to be an ellipsoid of revolution (a prolate spheroid) as an approximation to observations (Sibeck et al., 1991). This assumption permits the potential gamma to be expressed in spheroidal coordinates, expanded in spheroidal harmonics and its terms evaluated by performing inversion integrals. Finally, the field outside the magnetopause is replaced by zero, resulting in a consistent current closure along the magnetopause. This procedure can also be used to confine the modeled field of any other interior magnetic source, though the model current must always flow in closed circuits. The method is demonstrated on the T87 cross-tail current, examples illustrate the effect of changing the size and shape of the prescribed magnetopause and a comparison is made to an independent numerical scheme based on the Biot-Savart equation.
AB - A method is presented for analytically representing the magnetic field due to the cross-tail current and its closure on the magnetopause. It is an extension of a method used by Tsyganenko (1989b) to confine the dipole field inside an ellipsoidal magnetopause using a scalar potential. Given a model of the cross-tail current, the implied net magnetic field is obtained by adding to the cross-tail current field a potential field B = -delgamma, which makes all field lines divide into two disjoint groups, separated by the magnetopause (i.e., the combined field is made to have zero normal component with the magnetopause). The magnetopause is assumed to be an ellipsoid of revolution (a prolate spheroid) as an approximation to observations (Sibeck et al., 1991). This assumption permits the potential gamma to be expressed in spheroidal coordinates, expanded in spheroidal harmonics and its terms evaluated by performing inversion integrals. Finally, the field outside the magnetopause is replaced by zero, resulting in a consistent current closure along the magnetopause. This procedure can also be used to confine the modeled field of any other interior magnetic source, though the model current must always flow in closed circuits. The method is demonstrated on the T87 cross-tail current, examples illustrate the effect of changing the size and shape of the prescribed magnetopause and a comparison is made to an independent numerical scheme based on the Biot-Savart equation.
KW - GEOMAGNETIC-FIELD
KW - MAGNETOSPHERIC FIELD
KW - QUANTITATIVE MODELS
KW - MAGNETOTAIL
KW - CURRENT SHEET
U2 - 10.1029/94JA01656
DO - 10.1029/94JA01656
M3 - Article
VL - 99
SP - 19393
EP - 19402
JO - Journal of Geophysical Research: Biogeosciences
JF - Journal of Geophysical Research: Biogeosciences
SN - 0148-0227
IS - A10
ER -
ID: 28014269