论文信息 - Anomalous deformation of the Earth's bow shock in the lunar wake: Joint measurement by Chang’E-1 and SELENE - 字舞流文

Anomalous deformation of the Earth's bow shock in the lunar wake: Joint measurement by Chang’E-1 and SELENE

M. Fujimoto | M. Nishino | Y. Saito | S. Yokota | H. Tsunakawa | M. Matsushima | H. Shibuya | T. Terasawa | W. Bian | X.‐D. Wang | H. Shimizu | F. Takahashi | Chun Li | Yoshifumi Saito

[1] M. Fujimoto,et al. Effect of the solar wind proton entry into the deepest lunar wake , 2010 .

[2] S. Sasaki,et al. In-flight Performance and Initial Results of Plasma Energy Angle and Composition Experiment (PACE) on SELENE (Kaguya) , 2010 .

[3] Wei Zuo,et al. Acceleration of scattered solar wind protons at the polar terminator of the Moon: Results from Chang'E‐1/SWIDs , 2010 .

[4] S. Nakazawa,et al. In-orbit calibration of the lunar magnetometer onboard SELENE (KAGUYA) , 2009 .

[5] M. Fujimoto,et al. Solar‐wind proton access deep into the near‐Moon wake , 2009 .

[6] M. Fujimoto,et al. Pairwise energy gain‐loss feature of solar wind protons in the near‐Moon wake , 2009 .

[7] M. Fujimoto,et al. Anomalous flow deflection at earth's low-Alfvén-Mach-Number bow shock. , 2008, Physical review letters.

[8] A. Matsuoka,et al. Ground calibration of the high-sensitivity SELENE lunar magnetometer LMAG , 2008 .

[9] S. Sasaki,et al. Low-energy charged particle measurement by MAP-PACE onboard SELENE , 2008 .

[10] D. Mitchell,et al. Electrons and magnetic fields in the lunar plasma wake , 2005 .

[11] Yuika Saito,et al. Field-aligned beam observations at the quasi-perpendicular bow shock : Generation and shock angle dependence , 2005 .

[12] J. Slavin,et al. Three‐dimensional position and shape of the bow shock and their variation with upstream Mach numbers and interplanetary magnetic field orientation , 2005 .

[13] Petr Hellinger,et al. Structure of the lunar wake: Two‐dimensional global hybrid simulations , 2005 .

[14] T. Horbury,et al. Density-transition scale at quasiperpendicular collisionless shocks. , 2003, Physical review letters.

[15] M. Dunlop,et al. Four spacecraft measurements of the quasiperpendicular terrestrial bow shock: Orientation and motion , 2002 .

[16] Adam Szabo,et al. The location of low Mach number bow shocks at Earth , 2001 .

[17] A. Lazarus. The Day the Solar Wind Almost Disappeared , 2000, Science.

[18] William M. Farrell,et al. Observations of the lunar plasma wake from the WIND spacecraft on December 27, 1994 , 1996 .

[19] C. Owen,et al. The lunar wake at 6.8 RL: WIND magnetic field observations , 1996 .

[20] A. Szabo,et al. Observations of bow shock motion during times of variable solar wind conditions , 1996 .

[21] Charles C. Goodrich,et al. The structure of perpendicular bow shocks , 1982 .

[22] Charles C. Goodrich,et al. Simulation of a perpendicular bow shock , 1981 .

[23] P. Reiff,et al. The magnetosheath electron population at lunar distance: General features , 1975 .

[24] C. Russell,et al. Structure of the quasi-perpendicular laminar bow shock. [earth-solar wind interaction , 1975 .

[25] V. Formisano,et al. Observations of Earth's bow shock for low mach numbers , 1971 .

[26] N. Ness,et al. Perturbations of the interplanetary magnetic field by the lunar wake , 1968 .

[27] E. F. Lyon,et al. Explorer 35 plasma measurements in the vicinity of the moon. , 1967 .