OBSERVATIONS OF MAGNETIC-STRUCTURE AT THE DAYSIDE IONOPAUSE OF VENUS

被引:26
作者
LAW, CC
CLOUTIER, PA
机构
关键词
D O I
10.1029/95JA02756
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
The solar wind interaction with the nonmagnetic Venerean ionospheric obstacle is unique. Ionospheric models of this interaction have primarily been in two dimensions that do not allow for changes in the orientation of the solar wind magnetic field near the obstacle. Analysis of high-resolution magnetic field data from the Pioneer Venus Orbiter spacecraft has revealed field rotations that are observed to occur in conjunction with the dayside ionopause. These rotations are a result of the velocity shear at the ionopause and indicate the alignment (''weathervaning'') of the magnetic field with the radial day to night flow of ionospheric plasma. A new configuration of the dayside magnetic field draping has been derived from these results. Assuming Mars also represents a nonmagnetic obstacle to the flow, as past experimental observations indicate, the field diagnostics discovered here make it possible to probe the structure of the Martian ionosphere using magnetometer data in the absence of ion mass spectrometer data. These results would have had direct application to the Mars Observer spacecraft data and could play a major role in future Mars missions such as Mars Surveyor.
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页码:23973 / 23981
页数:9
相关论文
共 19 条
[1]  
BRACE LH, 1979, GEOPHYS RES LETT, V6, P346
[2]  
Cloutier P. A., 1983, Venus, P941
[3]   FORMATION AND DYNAMICS OF LARGE-SCALE MAGNETIC-STRUCTURES IN THE IONOSPHERE OF VENUS [J].
CLOUTIER, PA .
JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 1984, 89 (NA4) :2401-2405
[4]   STEADY-STATE FLOW/FIELD MODEL OF SOLAR-WIND INTERACTION WITH VENUS - GLOBAL IMPLICATIONS OF LOCAL-EFFECTS [J].
CLOUTIER, PA ;
TAYLOR, HA ;
MCGARY, JE .
JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 1987, 92 (A7) :7289-7307
[5]   IONOSPHERIC CURRENTS INDUCED BY SOLAR-WIND INTERACTION WITH PLANETARY ATMOSPHERES [J].
CLOUTIER, PA ;
DANIELL, RE .
PLANETARY AND SPACE SCIENCE, 1973, 21 (03) :463-474
[6]   ELECTRODYNAMIC MODEL OF THE SOLAR-WIND INTERACTION WITH THE IONOSPHERES OF MARS AND VENUS [J].
CLOUTIER, PA ;
DANIELL, RE .
PLANETARY AND SPACE SCIENCE, 1979, 27 (08) :1111-1121
[7]   THE EVOLUTION OF LARGE-SCALE MAGNETIC-FIELDS IN THE IONOSPHERE OF VENUS [J].
CRAVENS, TE ;
SHINAGAWA, H ;
NAGY, AF .
GEOPHYSICAL RESEARCH LETTERS, 1984, 11 (03) :267-270
[8]   Observations of the dayside ionopause and ionosphere of Venus [J].
Elphic, R. C. ;
Russell, C. T. ;
Slavin, J. A. ;
Brace, L. H. .
JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 1980, 85 (A13) :7679-7696
[9]   THE VENUS IONOPAUSE CURRENT SHEET - THICKNESS LENGTH SCALE AND CONTROLLING FACTORS [J].
ELPHIC, RC ;
RUSSELL, CT ;
LUHMANN, JG ;
SCARF, FL ;
BRACE, LH .
JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 1981, 86 (NA13) :1430-1438
[10]   ON THE RESPONSE OF IONOSPHERIC MAGNETIZATION TO SOLAR-WIND DYNAMIC PRESSURE FROM PIONEER VENUS MEASUREMENTS [J].
KAR, J ;
MAHAJAN, KK .
GEOPHYSICAL RESEARCH LETTERS, 1987, 14 (05) :507-510