Little or no solar wind enters Venus' atmosphere at solar minimum

T. L. Zhang; M. Delva; W. Baumjohann; H. U. Auster; C. Carr; C. T. Russell; S. Barabash; M. Balikhin; K. Kudela; G. Berghofer; H. K. Biernat; H. Lammer; H. Lichtenegger; W. Magnes; R. Nakamura; K. Schwingenschuh; M. Volwerk; Z. Vörös; W. Zambelli; K. H. Fornacon; K. H. Glassmeier; I. Richter; A. Balogh; H. Schwarzl; S. A. Pope; J. K. Shi; C. Wang; U. Motschmann; J. P. Lebreton

doi:10.1038/nature06026

Little or no solar wind enters Venus' atmosphere at solar minimum

T. L. Zhang^*
, M. Delva
, W. Baumjohann
, H. U. Auster
, C. Carr
, C. T. Russell
, S. Barabash
, M. Balikhin
, K. Kudela
, G. Berghofer
, H. K. Biernat
, H. Lammer
, H. Lichtenegger
, W. Magnes
, R. Nakamura
, K. Schwingenschuh
, M. Volwerk
, Z. Vörös
, W. Zambelli
, K. H. Fornacon

K. H. Glassmeier, I. Richter, A. Balogh, H. Schwarzl, S. A. Pope, J. K. Shi, C. Wang, U. Motschmann, J. P. Lebreton

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

80 Scopus citations

Abstract

Venus has no significant internal magnetic field, which allows the solar wind to interact directly with its atmosphere^2,3. A field is induced in this interaction, which partially shields the atmosphere, but we have no knowledge of how effective that shield is at solar minimum. (Our current knowledge of the solar wind interaction with Venus is derived from measurements at solar maximum.) The bow shock is close to the planet, meaning that it is possible that some solar wind could be absorbed by the atmosphere and contribute to the evolution of the atmosphere. Here we report magnetic field measurements from the Venus Express spacecraft in the plasma environment surrounding Venus. The bow shock under low solar activity conditions seems to be in the position that would be expected from a complete deflection by a magnetized ionosphere. Therefore little solar wind enters the Venus ionosphere even at solar minimum.

Original language	English
Pages (from-to)	654-656
Number of pages	3
Journal	Nature
Volume	450
Issue number	7170
DOIs	https://doi.org/10.1038/nature06026
State	Published - 29 Nov 2007
Externally published	Yes

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Zhang, T. L., Delva, M., Baumjohann, W., Auster, H. U., Carr, C., Russell, C. T., Barabash, S., Balikhin, M., Kudela, K., Berghofer, G., Biernat, H. K., Lammer, H., Lichtenegger, H., Magnes, W., Nakamura, R., Schwingenschuh, K., Volwerk, M., Vörös, Z., Zambelli, W., ... Lebreton, J. P. (2007). Little or no solar wind enters Venus' atmosphere at solar minimum. Nature, 450(7170), 654-656. https://doi.org/10.1038/nature06026

@article{fa3728b39ac845e8bb5a7cf0210c851f,

title = "Little or no solar wind enters Venus' atmosphere at solar minimum",

abstract = "Venus has no significant internal magnetic field, which allows the solar wind to interact directly with its atmosphere2,3. A field is induced in this interaction, which partially shields the atmosphere, but we have no knowledge of how effective that shield is at solar minimum. (Our current knowledge of the solar wind interaction with Venus is derived from measurements at solar maximum.) The bow shock is close to the planet, meaning that it is possible that some solar wind could be absorbed by the atmosphere and contribute to the evolution of the atmosphere. Here we report magnetic field measurements from the Venus Express spacecraft in the plasma environment surrounding Venus. The bow shock under low solar activity conditions seems to be in the position that would be expected from a complete deflection by a magnetized ionosphere. Therefore little solar wind enters the Venus ionosphere even at solar minimum.",

author = "Zhang, \{T. L.\} and M. Delva and W. Baumjohann and Auster, \{H. U.\} and C. Carr and Russell, \{C. T.\} and S. Barabash and M. Balikhin and K. Kudela and G. Berghofer and Biernat, \{H. K.\} and H. Lammer and H. Lichtenegger and W. Magnes and R. Nakamura and K. Schwingenschuh and M. Volwerk and Z. V{\"o}r{\"o}s and W. Zambelli and Fornacon, \{K. H.\} and Glassmeier, \{K. H.\} and I. Richter and A. Balogh and H. Schwarzl and Pope, \{S. A.\} and Shi, \{J. K.\} and C. Wang and U. Motschmann and Lebreton, \{J. P.\}",

year = "2007",

month = nov,

day = "29",

doi = "10.1038/nature06026",

language = "英语",

volume = "450",

pages = "654--656",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7170",

}

Zhang, TL, Delva, M, Baumjohann, W, Auster, HU, Carr, C, Russell, CT, Barabash, S, Balikhin, M, Kudela, K, Berghofer, G, Biernat, HK, Lammer, H, Lichtenegger, H, Magnes, W, Nakamura, R, Schwingenschuh, K, Volwerk, M, Vörös, Z, Zambelli, W, Fornacon, KH, Glassmeier, KH, Richter, I, Balogh, A, Schwarzl, H, Pope, SA, Shi, JK, Wang, C, Motschmann, U & Lebreton, JP 2007, 'Little or no solar wind enters Venus' atmosphere at solar minimum', Nature, vol. 450, no. 7170, pp. 654-656. https://doi.org/10.1038/nature06026

TY - JOUR

T1 - Little or no solar wind enters Venus' atmosphere at solar minimum

AU - Zhang, T. L.

AU - Delva, M.

AU - Baumjohann, W.

AU - Auster, H. U.

AU - Carr, C.

AU - Russell, C. T.

AU - Barabash, S.

AU - Balikhin, M.

AU - Kudela, K.

AU - Berghofer, G.

AU - Biernat, H. K.

AU - Lammer, H.

AU - Lichtenegger, H.

AU - Magnes, W.

AU - Nakamura, R.

AU - Schwingenschuh, K.

AU - Volwerk, M.

AU - Vörös, Z.

AU - Zambelli, W.

AU - Fornacon, K. H.

AU - Glassmeier, K. H.

AU - Richter, I.

AU - Balogh, A.

AU - Schwarzl, H.

AU - Pope, S. A.

AU - Shi, J. K.

AU - Wang, C.

AU - Motschmann, U.

AU - Lebreton, J. P.

PY - 2007/11/29

Y1 - 2007/11/29

N2 - Venus has no significant internal magnetic field, which allows the solar wind to interact directly with its atmosphere2,3. A field is induced in this interaction, which partially shields the atmosphere, but we have no knowledge of how effective that shield is at solar minimum. (Our current knowledge of the solar wind interaction with Venus is derived from measurements at solar maximum.) The bow shock is close to the planet, meaning that it is possible that some solar wind could be absorbed by the atmosphere and contribute to the evolution of the atmosphere. Here we report magnetic field measurements from the Venus Express spacecraft in the plasma environment surrounding Venus. The bow shock under low solar activity conditions seems to be in the position that would be expected from a complete deflection by a magnetized ionosphere. Therefore little solar wind enters the Venus ionosphere even at solar minimum.

AB - Venus has no significant internal magnetic field, which allows the solar wind to interact directly with its atmosphere2,3. A field is induced in this interaction, which partially shields the atmosphere, but we have no knowledge of how effective that shield is at solar minimum. (Our current knowledge of the solar wind interaction with Venus is derived from measurements at solar maximum.) The bow shock is close to the planet, meaning that it is possible that some solar wind could be absorbed by the atmosphere and contribute to the evolution of the atmosphere. Here we report magnetic field measurements from the Venus Express spacecraft in the plasma environment surrounding Venus. The bow shock under low solar activity conditions seems to be in the position that would be expected from a complete deflection by a magnetized ionosphere. Therefore little solar wind enters the Venus ionosphere even at solar minimum.

UR - https://www.scopus.com/pages/publications/36749075597

U2 - 10.1038/nature06026

DO - 10.1038/nature06026

M3 - 文章

AN - SCOPUS:36749075597

SN - 0028-0836

VL - 450

SP - 654

EP - 656

JO - Nature

JF - Nature

IS - 7170

ER -

Little or no solar wind enters Venus' atmosphere at solar minimum

Abstract

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