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土星附近的等离子体观测:旅行者1号的初步结果。

Plasma observations near saturn: initial results from voyager 1.

作者信息

Bridge H S, Belcher J W, Lazarus A J, Olbert S, Sullivan J D, Bagenal F, Gazis P R, Hartle R E, Ogilvie K W, Scudder J D, Sittler E C, Eviatar A, Siscoe G L, Goertz C K, Vasyliunas V M

出版信息

Science. 1981 Apr 10;212(4491):217-24. doi: 10.1126/science.212.4491.217.

Abstract

Extensive measurements of low-energy plasma electrons and positive ions were made during the Voyager 1 encounter with Saturn and its satellites. The magnetospheric plasma contains light and heavy ions, probably hydrogen and nitrogen or oxygen; at radial distances between 15 and 7 Saturn-radii (Rs) on the inbound trajectory, the plasma appears to corotate with a velocity within 20 percent of that expected for rigid corotation. The general morphology of Saturn's magnetosphere is well represented by a plasma sheet that extends from at least 5 to 17 Rs, is symmetrical with respect to Saturn's equatorial plane and rotation axis, and appears to be well ordered by the magnetic shell parameter L (which represents the equatorial distance of a magnetic field line measured in units of Rs). Within this general configuration, two distinct structures can be identified: a central plasma sheet observed from L = 5 to L = 8 in which the density decreases rapidly away from the equatorial plane, and a more extended structure from L = 7 to beyond 18 Rs in which the density profile is nearly flat for a distance +/- 1.8 Rs off the plane and falls rapidly thereafter. The encounter with Titan took place inside the magnetosphere. The data show a clear signature characteristic of the interaction between a subsonic corotating magnetospheric plasma and the atmospheric or ionospheric exosphere of Titan. Titan appears to be a significant source of ions for the outer magnetosphere. The locations of bow shock crossings observed inbound and outbound indicate that the shape of the Saturnian magnetosphere is similar to that of Earth and that the position of the stagnation point scales approximately as the inverse one-sixth power of the ram pressure.

摘要

在“旅行者1号”飞越土星及其卫星期间,对低能等离子体电子和正离子进行了广泛测量。磁层等离子体包含轻离子和重离子,可能是氢以及氮或氧;在向内飞行轨迹上距离土星15至7个土星半径(Rs)之间,等离子体似乎以与刚体共转预期速度相差20%以内的速度共转。土星磁层的总体形态由一个等离子体片很好地呈现,该等离子体片从至少5Rs延伸至17Rs,相对于土星赤道面和自转轴对称,并且似乎由磁壳参数L(它表示以Rs为单位测量的磁力线的赤道距离)很好地排序。在这个总体构型内,可以识别出两种不同结构:在L = 5至L = 8处观测到的中心等离子体片,其中密度远离赤道面迅速降低;以及从L = 7至超过18Rs的更扩展结构,其中在离平面±1.8Rs的距离内密度剖面近乎平坦,此后迅速下降。与土卫六的交会发生在磁层内部。数据显示了亚声速共转磁层等离子体与土卫六大气或电离层外层之间相互作用的明显特征信号。土卫六似乎是外磁层离子的一个重要来源。向内和向外飞行时观测到的弓形激波穿越位置表明,土星磁层的形状与地球相似,并且驻点位置大致按冲压压力的六分之一次方反比缩放。

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