Comparative analysis of Venus and Mars magnetotails

A MODEL OF THE ION WAKE OF MARS

J. G. Luhmann

August 2015

Abstract. Observations from the PHOBOS spacecraft suggest that, for the most part, the Martian magne...

Ionospheres and atmosphere of non-magnetic planets and solar wind interaction: Part I - Venus

Mahajan, K. K.
Dwivedi, A. K.

December 2002

The solar-planetary interaction is unique for non-magnetic planets, since the solar wind interacts d...

Magnetotails in the Solar System

Keiling, Andreas
Jackman, Caitríona M.
Delamere, Peter A.

January 2015

All magnetized planets in our solar system (Mercury, Earth, Jupiter, Saturn, Uranus, and Neptune) in...

Comparative analysis of Venus and Mars magnetotails

Fedorov, A.
Ferrier, C.
Sauvaud, J. A.
Barabash, S.
Zhang, T. L.
Mazelle, C.
Lundin, R.
Gunell, H.
Andersson, H.
Brinkfeldt, K.
Futaana, Y.
Grigoriev, A.
Holmström, M.
Yamauchi, M.
Asamura, K.
Baumjohann, W.
Lammer, H.
Coates, A. J.
Kataria, D. O.
Linder, D. R.
Curtis, C. C.
Hsieh, K. C.
Sandel, B. R.
Thocaven, J. -J.
Grande, M.
Koskinen, H.
Kallio, E.
Sales, T.
Schmidt, W.
Riihela, P.
Kozyra, J.
Krupp, N.
Woch, J.
Luhmann, J.
McKenna-Lawlor, S.
Orsini, S.
Cerulli-Irelli, R.
Mura, A.
Milillo, A.
Maggi, M.
Roelof, E.
Brandt, P.
Russell, C. T.
Szego, K.
Winningham, J. D.
Frahm, R. A.
Scherrer, J.
Sharber, J. R.
Wurz, P.
Bochsler, P.

May 2008

We have an unique opportunity to compare the magnetospheres of two non-magnetic planets as Mars and ...

Properties of planetward ion flows in Venus’ magnetotail

Kollmann, P.
Brandt, P.C.
Collinson, G.
Rong, Z.J.
Futaana, Y.
Zhang, T.L.

August 2016

AbstractVenus is gradually losing some of its atmosphere in the form of ions through its induced mag...

The induced magnetospheres and magnetotails of Mars and Venus

Stergiopoulou, Aikaterini

January 2022

In this work we focus on several aspects of the ionospheres, induced magnetospheres, and magnetotail...

Ionospheres of Venus and Mars: a comparative study

Mahajan, K. K.
Dwivedi, A. K.

January 2004

Magnetometer measurements on the Pioneer Venus Orbiter (PVO) have shown that Venus is a non-magnetic...

A comparative study of Venus and Mars — Upper atmospheres, ionospheres and solar wind interactions

Mahajan, K K

October 1990

444-465Venus is the most explored planet due to the Pioneer Venus mission. In contrast, Mars is rela...

Structure of the martian wake

Fedorov, A.
Budnik, E.
Sauvaud, J. A.
Mazelle, C.
Barabash, S.
Lundin, R.
Acuña, M.
Holmström, M.
Grigoriev, A.
Yamauchi, M.
Andersson, H.
Thocaven, J. J.
Winningham, D.
Frahm, R.
Sharber, J. R.
Scherrer, J.
Coates, A. J.
Linder, D. R.
Kataria, D. O.
Kallio, E.
Koskinen, H.
Säles, T.
Riihelä, P.
Schmidt, W.
Kozyra, J.
Luhmann, J.
Roelof, E.
Williams, D.
Livi, S.
Curtis, C. C.
Hsieh, K. C.
Sandel, B. R.
Grande, M.
Carter, M.
McKenna-Lawler, S.
Orsini, S.
Cerulli-Irelli, R.
Maggi, M.
Wurz, P.
Bochsler, P.
Krupp, N.
Woch, J.
Fränz, M.
Asamura, K.
Dierker, C.

June 2006

We present the first results from the ion mass analyzer IMA of the ASPERA-3 instrument on-board of M...

The interaction of flowing plasmas with planetary ionospheres: A Titan-Venus comparison

Margaret G. Kivelson
Christopher T. Russell

January 1983

Titan and Venus are both unmagnetized bodies enveloped by induced magnetospheres created within the ...

Distribution and dynamic of plasma in the magnetospheres of venus and Mars

Dubinin, Eduard
Fraenz, M.
Modolo, Ronan

April 2016

International audienceGeneral features of plasma characteristics in different regions of the induced...

A One-Dimensional Multi-Species Mhd Model of the Ionospheres of Venus and Mars.

Shinagawa, Hiroyuki

January 1987

The behavior of the ionospheric magnetic fields and ionospheric plasma of the dayside ionospheres of...

Magnetic states of the ionosphere of Venus observed by Venus Express

Angsmann, A.
Fränz, M.
Dubinin, E.
Woch, J.
Barabash, S.
Zhang, T. L.
Motschmann, Uwe

January 2011

Strong ultraviolet radiation from the Sun ionizes the upper atmosphere of Venus, creating a dense i...

Example measurements of electron energy and pitch angle distributions from Venus Express

Xu, Shaosui
Frahm, Rudy
Ma, Yingjuan
Luhmann, Janet
Mitchell, David

October 2021

Venus has negligible intrinsic magnetic fields to the first order, such that its ionosphere (the cha...

Large-scale structure and dynamics of the magnetotails of Mercury, Earth, Jupiter and Saturn

Jackman, C. M.
Arridge, C. S.
André, N.
Bagenal, F.
Birn, J.
Freeman, M. P.
Jia, X.
Kidder, A.
Milan, S. E.
Radioti, A.
Slavin, J. A.
Vogt, M. F.
Volwerk, M.
Walsh, A. P.

August 2014

Spacecraft observations have established that all known planets with an internal magnetic field, as ...

A MODEL OF THE ION WAKE OF MARS

J. G. Luhmann

August 2015

Abstract. Observations from the PHOBOS spacecraft suggest that, for the most part, the Martian magne...

Ionospheres and atmosphere of non-magnetic planets and solar wind interaction: Part I - Venus

Mahajan, K. K.
Dwivedi, A. K.

December 2002

The solar-planetary interaction is unique for non-magnetic planets, since the solar wind interacts d...

Magnetotails in the Solar System

Keiling, Andreas
Jackman, Caitríona M.
Delamere, Peter A.

January 2015

All magnetized planets in our solar system (Mercury, Earth, Jupiter, Saturn, Uranus, and Neptune) in...

Comparative analysis of Venus and Mars magnetotails

Fedorov, A.
Ferrier, C.
Sauvaud, J. A.
Barabash, S.
Zhang, T. L.
Mazelle, C.
Lundin, R.
Gunell, H.
Andersson, H.
Brinkfeldt, K.
Futaana, Y.
Grigoriev, A.
Holmström, M.
Yamauchi, M.
Asamura, K.
Baumjohann, W.
Lammer, H.
Coates, A. J.
Kataria, D. O.
Linder, D. R.
Curtis, C. C.
Hsieh, K. C.
Sandel, B. R.
Thocaven, J. -J.
Grande, M.
Koskinen, H.
Kallio, E.
Sales, T.
Schmidt, W.
Riihela, P.
Kozyra, J.
Krupp, N.
Woch, J.
Luhmann, J.
McKenna-Lawlor, S.
Orsini, S.
Cerulli-Irelli, R.
Mura, A.
Milillo, A.
Maggi, M.
Roelof, E.
Brandt, P.
Russell, C. T.
Szego, K.
Winningham, J. D.
Frahm, R. A.
Scherrer, J.
Sharber, J. R.
Wurz, P.
Bochsler, P.

May 2008

We have an unique opportunity to compare the magnetospheres of two non-magnetic planets as Mars and ...

Properties of planetward ion flows in Venus’ magnetotail

Kollmann, P.
Brandt, P.C.
Collinson, G.
Rong, Z.J.
Futaana, Y.
Zhang, T.L.

August 2016

AbstractVenus is gradually losing some of its atmosphere in the form of ions through its induced mag...

The induced magnetospheres and magnetotails of Mars and Venus

Stergiopoulou, Aikaterini

January 2022

In this work we focus on several aspects of the ionospheres, induced magnetospheres, and magnetotail...

Ionospheres of Venus and Mars: a comparative study

Mahajan, K. K.
Dwivedi, A. K.

January 2004

Magnetometer measurements on the Pioneer Venus Orbiter (PVO) have shown that Venus is a non-magnetic...

A comparative study of Venus and Mars — Upper atmospheres, ionospheres and solar wind interactions

Mahajan, K K

October 1990

444-465Venus is the most explored planet due to the Pioneer Venus mission. In contrast, Mars is rela...

Structure of the martian wake

Fedorov, A.
Budnik, E.
Sauvaud, J. A.
Mazelle, C.
Barabash, S.
Lundin, R.
Acuña, M.
Holmström, M.
Grigoriev, A.
Yamauchi, M.
Andersson, H.
Thocaven, J. J.
Winningham, D.
Frahm, R.
Sharber, J. R.
Scherrer, J.
Coates, A. J.
Linder, D. R.
Kataria, D. O.
Kallio, E.
Koskinen, H.
Säles, T.
Riihelä, P.
Schmidt, W.
Kozyra, J.
Luhmann, J.
Roelof, E.
Williams, D.
Livi, S.
Curtis, C. C.
Hsieh, K. C.
Sandel, B. R.
Grande, M.
Carter, M.
McKenna-Lawler, S.
Orsini, S.
Cerulli-Irelli, R.
Maggi, M.
Wurz, P.
Bochsler, P.
Krupp, N.
Woch, J.
Fränz, M.
Asamura, K.
Dierker, C.

June 2006

We present the first results from the ion mass analyzer IMA of the ASPERA-3 instrument on-board of M...

The interaction of flowing plasmas with planetary ionospheres: A Titan-Venus comparison

Margaret G. Kivelson
Christopher T. Russell

January 1983

Titan and Venus are both unmagnetized bodies enveloped by induced magnetospheres created within the ...

Distribution and dynamic of plasma in the magnetospheres of venus and Mars

Dubinin, Eduard
Fraenz, M.
Modolo, Ronan

April 2016

International audienceGeneral features of plasma characteristics in different regions of the induced...

A One-Dimensional Multi-Species Mhd Model of the Ionospheres of Venus and Mars.

Shinagawa, Hiroyuki

January 1987

The behavior of the ionospheric magnetic fields and ionospheric plasma of the dayside ionospheres of...

Magnetic states of the ionosphere of Venus observed by Venus Express

Angsmann, A.
Fränz, M.
Dubinin, E.
Woch, J.
Barabash, S.
Zhang, T. L.
Motschmann, Uwe

January 2011

Strong ultraviolet radiation from the Sun ionizes the upper atmosphere of Venus, creating a dense i...

Example measurements of electron energy and pitch angle distributions from Venus Express

Xu, Shaosui
Frahm, Rudy
Ma, Yingjuan
Luhmann, Janet
Mitchell, David

October 2021

Venus has negligible intrinsic magnetic fields to the first order, such that its ionosphere (the cha...

Large-scale structure and dynamics of the magnetotails of Mercury, Earth, Jupiter and Saturn

Jackman, C. M.
Arridge, C. S.
André, N.
Bagenal, F.
Birn, J.
Freeman, M. P.
Jia, X.
Kidder, A.
Milan, S. E.
Radioti, A.
Slavin, J. A.
Vogt, M. F.
Volwerk, M.
Walsh, A. P.

August 2014

Spacecraft observations have established that all known planets with an internal magnetic field, as ...

A MODEL OF THE ION WAKE OF MARS

J. G. Luhmann

August 2015

Abstract. Observations from the PHOBOS spacecraft suggest that, for the most part, the Martian magne...

Ionospheres and atmosphere of non-magnetic planets and solar wind interaction: Part I - Venus

Mahajan, K. K.
Dwivedi, A. K.

December 2002

The solar-planetary interaction is unique for non-magnetic planets, since the solar wind interacts d...

Magnetotails in the Solar System

Keiling, Andreas
Jackman, Caitríona M.
Delamere, Peter A.

January 2015

All magnetized planets in our solar system (Mercury, Earth, Jupiter, Saturn, Uranus, and Neptune) in...

Comparative analysis of Venus and Mars magnetotails

Abstract

Extracted data

Comparative analysis of Venus and Mars magnetotails

Abstract

Extracted data

Related items

Related items