Bow Shock and Upstream Phenomena at Mars
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J. Slavin | M. Acuna | S. Brecht | C. Mazelle | K. Sauer | M. Delva | J. Trotignon | D. Brain | E. Dubinin | M. Øieroset | C. Bertucci | D. Winterhalter | K. Baumgärtel | Konrad Sauer | Mario H. Acuña | David Brain | Stephen H. Brecht | E. Dubinin
[1] J. Connerney,et al. Martian magnetic morphology: Contributions from the solar wind and crust , 2003 .
[2] C. Russell,et al. Magnetic field draping enhancement at Venus: Evidence for a magnetic pileup boundary , 2003 .
[3] D. Mitchell,et al. Magnetic field draping enhancement at the Martian magnetic pileup boundary from Mars global surveyor observations , 2003 .
[4] J. F. Mckenzie,et al. Wave emission by whistler oscillitons: Application to “coherent lion roars” , 2002 .
[5] Kenneth G. Powell,et al. Three-dimensional multispecies MHD studies of the solar wind interaction with Mars in the presence of crustal fields , 2002 .
[6] D. Mitchell,et al. Observations of low‐frequency electromagnetic plasma waves upstream from the Martian shock , 2002 .
[7] Uwe Motschmann,et al. From a Weak to a Strong Comet — 3D Global Hybrid Simulation Studies , 2002 .
[8] M. Acuna,et al. Factors controlling the location of the Bow Shock at Mars , 2002 .
[9] U. Motschmann,et al. 3D hybrid simulations of the interaction of the solar wind with a weak comet , 2002 .
[10] J. Connerney,et al. Magnetic field of Mars: Summary of results from the aerobraking and mapping orbits , 2001 .
[11] D. Mitchell,et al. Probing Mars' crustal magnetic field and ionosphere with the MGS Electron Reflectometer , 2001 .
[12] K. Sauer,et al. New type of soliton in Bi‐ion plasmas and possible implications , 2001 .
[13] H. Shimazu. Three-dimensional hybrid simulation of solar wind interaction with unmagnetized planets , 2001 .
[14] S. Chapman,et al. 2D hybrid simulations of the solar wind interaction with a small scale comet in high Mach number flows , 2001 .
[15] D. Mitchell,et al. Hot diamagnetic cavities upstream of the Martian bow shock , 2001 .
[16] J. F. Mckenzie,et al. Coherent Waves in Multi-Ion Plasmas , 2001 .
[17] Tamas Gombosi,et al. Physics of Mass Loaded Plasmas , 2000 .
[18] M. Dunlop,et al. Conditions for the formation of hot flow anomalies at Earth's bow shock , 2000 .
[19] R. Lundin,et al. Multi-instrument study of the upstream region near Mars : The Phobos 2 observations , 2000 .
[20] David L. Mitchell,et al. The solar wind interaction with Mars: Locations and shapes of the bow shock and the magnetic pile‐up boundary from the observations of the MAG/ER Experiment onboard Mars Global Surveyor , 2000 .
[21] R. Lundin,et al. Deceleration of the solar wind upstream of the martian bow shock. Mass-loading or foreshock features? , 2000 .
[22] K. Sauer,et al. The Nature of the Martian `Obstacle Boundary' , 2000 .
[23] R. Grard,et al. Electron plasma waves beyond the Mars' bow shock: The PWS/Phobos-2 observations , 2000 .
[24] K. Baumgärtel. Soliton approach to magnetic holes , 1999 .
[25] H. Rosenbauer,et al. Shape and location of planetary bow shocks. , 1999 .
[26] D. Mitchell,et al. Venus‐like interaction of the solar wind with Mars , 1999 .
[27] H. Shimazu. Three-dimensional hybrid simulation of magnetized plasma flow around an obstacle , 1999 .
[28] Ness,et al. Global distribution of crustal magnetization discovered by the mars global surveyor MAG/ER experiment , 1999, Science.
[29] Ness,et al. Magnetic lineations in the ancient crust of mars , 1999, Science.
[30] M. Dunlop,et al. Low‐frequency electromagnetic waves near and below the proton cyclotron frequency at the AMPTE Ba release: Relevance to comets and Mars , 1999 .
[31] D. Mitchell,et al. Evidence of electron impact ionization in the magnetic pileup boundary of Mars , 1999 .
[32] Jhoon Kim,et al. Solar cycle variability of hot oxygen atoms at Mars , 1998 .
[33] K. Sauer,et al. Nonlinear MHD waves and discontinuities in the Martian magnetosheath. Observations and 2D bi-ion MHD simulations , 1998 .
[34] M. Dougherty,et al. “Phobos events”—Signatures of solar wind interaction with a gas torus? , 1998 .
[35] Ness,et al. Magnetic Field and Plasma Observations at Mars: Initial Results of the Mars Global Surveyor Mission , 1998, Science.
[36] K. Sauer,et al. Multiple shocks near Mars , 1998 .
[37] K. Schwingenschuh,et al. Ion and electron heating at the Martian bow shock. Common for bow shocks or not? , 1998 .
[38] K. Sauer,et al. Low-frequency electromagnetic waves and instabilities within the Martian bi-ion plasma , 1998 .
[39] M. Delva,et al. Upstream ULF fluctuations near Mars , 1998 .
[40] K. Sauer,et al. The Martian Magnetosphere - A Laboratory for Bi-Ion Plasma Investigations , 1998 .
[41] Yu Lin. Generation of anomalous flows near the bow shock by its interaction with interplanetary discontinuities , 1997 .
[42] J. F. Mckenzie,et al. Solar wind response to a magnetized asteroid: Linear theory , 1997 .
[43] Douglas P. Hamilton,et al. Martian Dust Belts: Waiting for Discovery , 1997 .
[44] S. Brecht. Hybrid simulations of the magnetic topology of Mars , 1997 .
[45] H. Rosenbauer,et al. Study of the solar wind deceleration upstream of the Martian terminator bow shock , 1997 .
[46] H. Rosenbauer,et al. Quantitative model of the Martian magnetopause shape and its variation with the solar wind ram pressure based on Phobos 2 observations , 1997 .
[47] H. Rosenbauer,et al. Magnetic field overshoots in the Martian bow shock , 1997 .
[48] A. S. Lipatov,et al. 2.5D hybrid code simulation of the solar wind interaction with weak comets and related objects , 1997 .
[49] C. Russell,et al. Solar wind deceleration at Mars and Earth: A comparison , 1997 .
[50] K. Sauer,et al. Bi-ion structuring in the magnetosheath of Mars: theoretical modeling , 1997 .
[51] M. Kivelson,et al. Asteroid interaction with solar wind , 1996 .
[52] K. Sauer,et al. Plasma structures at weakly outgassing comets—results from bi-ion fluid analysis , 1996 .
[53] K. Sauer,et al. Deimos: An Obstacle to the Solar Wind , 1995, Science.
[54] S. A. Liebman,et al. Organic analysis of hydrogen cyanide polymers: prebiotic and extraterrestrial chemistry. , 1995, Advances in space research : the official journal of the Committee on Space Research.
[55] C. Russell,et al. A study of the solar wind deceleration in the Earth's foreshock region , 1995 .
[56] G. Le,et al. ULF waves in the foreshock , 1995 .
[57] R. Strangeway,et al. Comparison of upstream phenomena at Venus and Earth , 1995 .
[58] K. Sauer,et al. The protonopause — An ion composition boundary in the magnetosheath of comets, Venus and Mars , 1995 .
[59] R. Lundin,et al. Some features of the Martian bow shock , 1995 .
[60] C. Russell,et al. Comparison of properties of upstream whistlers at different planets , 1995 .
[61] R. Grard,et al. Mass‐loading asymmetry in upstream region near Mars , 1994 .
[62] K. Sauer,et al. Evidence of an ion composition boundary (protonopause) in bi‐ion fluid simulations of solar wind mass loading , 1994 .
[63] K. Sauer,et al. A Magnetohydrodynamic Model of Solar Wind Interaction with Asteroid Gaspra , 1994, Science.
[64] F. Herbert. Solar wind interaction with asteroids , 1993 .
[65] E. Dubinin. The Phobos and Deimos effects , 1993 .
[66] M. Kivelson,et al. Magnetic Field Signatures Near Galileo's Closest Approach to Gaspra , 1993, Science.
[67] S. Barabash,et al. Reflected ions near Mars: PHOBOS‐2 observations , 1993 .
[68] H. Koskinen,et al. Cold ions at the Martian bow shock: Phobos observations , 1993 .
[69] R. Grard,et al. Position and shape of the Martian bow shock: the Phobos 2 plasma wave system observations , 1993 .
[70] R. Grard,et al. Simultaneous plasma wave and electron flux observations upstream of the Martian bow shock , 1993 .
[71] S. Brecht,et al. Three-dimensional simulations of the solar wind interaction with Mars , 1993 .
[72] H. Rosenbauer,et al. The dependence of the Martian magnetopause and bow shock on solar wind ram pressure according to Phobos 2 TAUS ion spectrometer measurements , 1993 .
[73] C. Mazelle,et al. Discrete wave packets at the proton cyclotron frequency at comet P/Halley , 1993 .
[74] S. Barabash,et al. Upstream Regions at Mars , 1993 .
[75] O. Vaisberg. The Solar Wind Interaction With Mars: A Review of Results from Early Soviet Missions to Mars , 2013 .
[76] C. Russell,et al. Wave phenomena in the upstream region of Saturn , 1992 .
[77] A. Zakharov. The plasma environment of Mars: Phobos mission results. A 1990 status , 1992 .
[78] O. Vaisberg. The solar wind interaction with Mars: A review of results from previous soviet missions to Mars , 1992 .
[79] W. Ip. Neutral particle environment of Mars: The exosphere-plasma interaction effects , 1992 .
[80] W. I. Axford,et al. The electromagnetic effects of the solar wind interaction with the Phobos neutral gas halo and dust torus , 1992 .
[81] R. Grard,et al. Electron density in the Martian foreshock as a by-product of the electron plasma oscillation observations , 1992 .
[82] J. Sauvaud,et al. Mars Observer magnetic fields investigation , 1992 .
[83] R. Grard,et al. The Martian bow shock: Wave observations in the upstream region , 1992 .
[84] H. Rosenbauer,et al. On the problem of the Martian atmosphere dissipation: Phobos: 2 TAUS Spectrometer results , 1991 .
[85] C. Russell,et al. Picked‐up protons near Mars: Phobos observations , 1991 .
[86] J. Slavin,et al. The solar wind interaction with Mars: Mariner 4, Mars 2, Mars 3, Mars 5, and Phobos 2 observations of bow shock position and shape , 1991 .
[87] S. Brecht,et al. Global hybrid simulation of unmagnetized planets: Comparison of Venus and Mars , 1991 .
[88] R. Grard,et al. Derivation of electron densities from differential potential measurements upstream and downstream of the bow shock and in the magnetosphere of Mars , 1991 .
[89] R. Grard,et al. Plasma wave system measurements of the Martian bow shock from the Phobos 2 spacecraft , 1991 .
[90] M. Thomsen,et al. Hybrid simulation of the formation of a hot flow anomaly , 1991 .
[91] C. Russell,et al. Interplanetary magnetic field control of the Mars bow shock - Evidence for Venuslike interaction , 1991 .
[92] D. Mccomas,et al. Global hybrid simulation of the solar wind interaction with the dayside of Venus , 1991 .
[93] J. Luhmann,et al. Magnetic fields in the ionosphere of Venus , 1991 .
[94] R. Grard,et al. Location of the Martian bow shock measurements by the plasma wave system on Phobos 2 , 1991 .
[95] C. Kennel,et al. A comparison between the Earth's and Mars' bow shocks detected by the Phobos plasma-wave system , 1991 .
[96] R. Grard,et al. Plasma and waves around Mars , 1991 .
[97] J. Kurths,et al. The question of an internal martian magnetic field , 1991 .
[98] W. I. Axford. A commentary on our present understanding of the Martian magnetosphere , 1991 .
[99] S. Barabash,et al. Tails of Phobos and Deimos in the solar wind and in the Martian magnetosphere , 1991 .
[100] D. Orlowski,et al. Upstream waves at mercury, Venus and earth: Comparison of the properties of one Hertz waves , 1990 .
[101] W. Ip. The fast atomic oxygen corona extent of Mars , 1990 .
[102] C. Russell,et al. The solar cycle dependence of the location and shape of the Venus bow shock , 1990 .
[103] S. Brecht. Magnetic asymmetries of unmagnetized planets , 1990 .
[104] C. Russell,et al. Martian bow shock: Phobos observations , 1990 .
[105] W. Ip,et al. On the dust/gas tori of Phobos and Deimos , 1990 .
[106] C. Russell,et al. Upstream waves at Mars: Phobos observations , 1990 .
[107] S. Barabash,et al. Indirect evidences for a gas/dust torus along the Phobos orbit , 1990 .
[108] R. Sagdeev,et al. Wave activity in the neighborhood of the bowshock of Mars , 1990 .
[109] J. Kurths,et al. Magnetic fields near Mars: first results , 1989, Nature.
[110] R. Grard,et al. The Plasma Wave System on Phobos , 1989 .
[111] F. Fanale,et al. Loss of water from Phobos , 1989 .
[112] H. Matsumoto,et al. Magnetic pulses with durations near the local proton cyclotron period: Comet Giacobini‐Zinner , 1989 .
[113] W. Ip. On a hot oxygen corona of Mars , 1988 .
[114] C. Russell,et al. Solar and interplanetary control of the location of the Venus bow shock , 1988 .
[115] M. Goldstein,et al. Proton beam generation of oblique whistler waves , 1988 .
[116] F. Scarf,et al. Expectations for the microphysics of the Mars‐solar wind interaction , 1988 .
[117] J. Dong,et al. Excitations of low‐frequency hydromagnetic waves by freshly created ions in the solar wind , 1988 .
[118] S. Fuselier,et al. An observational study of MHD wave-induced density fluctuations upstream of the Earth's bow shock , 1988 .
[119] M. Dunlop,et al. Low frequency magnetic wave spectra associated with the AMPTE barium release of 27 December 1984 , 1988 .
[120] N. Omidi,et al. Electron/ion whistler instabilities and magnetic noise bursts , 1987 .
[121] M. Goldstein,et al. A Theory for Low-frequency Waves Observed at comet Giacobini-Zinner (JGR 92(A5) 1987) , 1987 .
[122] S. Brecht,et al. Angular dependence of high Mach number plasma interactions , 1987 .
[123] M. Dunlop,et al. On a magnetic source of southward motion of the AMPTE solar wind barium release of 27 December 1984 , 1987 .
[124] C. Russell,et al. Interplanetary field control of the location of the Venus bow shock: Evidence for comet‐like ion pickup , 1986 .
[125] C. Russell,et al. Hot, diamagnetic cavities upstream from the Earth's bow shock , 1986 .
[126] S. Schwartz,et al. An active current sheet in the solar wind , 1985, Nature.
[127] C. Russell,et al. Solar cycle dependence of the location of the Venus bow shock , 1985 .
[128] O. Vaisberg,et al. Venusian Interaction with the Solar Wind Plasma Flow as a Limiting Case of the Cometary Type Interaction , 1985 .
[129] D. Chaussee,et al. Solar wind flow about the terrestrial planets: 2. Comparison with gas dynamic theory and implications for solar‐planetary interactions , 1983 .
[130] O. Vaisberg,et al. Formation of the plasma mantle in the Venusian magnetosphere , 1984 .
[131] J. Slavin,et al. The solar wind interaction with Mars revisited , 1982 .
[132] James A. Slavin,et al. Solar wind flow about the terrestrial planets 1. Modeling bow shock position and shape , 1981 .
[133] A. Bogdanov. Mars satellite Deimos interaction with the solar wind and its influrence on flow around Mars , 1981 .
[134] J. Spreiter,et al. A new predictive model for determining solar wind-terrestrial planet interactions , 1980 .
[135] A. Lazarus,et al. Deceleration of the solar wind in the Earth's foreshock region: Isee 2 and Imp 8 observations , 1980 .
[136] C. Russell,et al. Position and shape of the Venus bow shock: Pioneer Venus Orbiter observations , 1979 .
[137] D. Fairfield. Whistler waves observed upstream from collisionless shocks , 1974 .
[138] R. Davidson,et al. Electromagnetic instabilities produced by neutral‐particle ionization in interplanetary space , 1972 .
[139] Steven Soter,et al. The dust belts of Mars. , 1971 .
[140] E. Greenstadt. Conditions for magnetic interaction of asteroids with the solar wind , 1971 .
[141] C. Russell,et al. Very-Low-Frequency Electric Fields in the Interplanetary Medium: Pioneer 8 G. L. Siscoe, F. L. Scarf, I. M. Green, J. H. Binsack, and H. S. Bridge 828 Ogo 5 Observations of Upstream Waves in the Interplanetary Medium: Discrete Wave Packets , 1971 .
[142] E. Smith,et al. Magnetic Field Measurements near Mars , 1965, Science.
[143] V. Moroz,et al. Results of Observations of Charged Particles Observed Out to R = 100, 000 km, with the Aid of Charged-Particle Traps on Soviet Space Rockets , 1961 .