SERENA: A suite of four instruments (ELENA, STROFIO, PICAM and MIPA) on board BepiColombo-MPO for particle detection in the Hermean environment
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A. M. Di Lellis | Peter Wurz | Anna Milillo | Stefano Livi | K. Torkar | S. Barabash | A. Milillo | S. Orsini | S. Barabash | S. Livi | P. Wurz | E. Kallio | S. Barabash | K. Torkar | Stefano Orsini | Esa Kallio | A. M. Lellis
[1] A. Sharma,et al. Influence of plasma ions on source rates for the lunar exosphere during passage through the Earth's magnetosphere , 2008 .
[2] R. Killen,et al. Predicting the long-term solar wind ion-sputtering source at Mercury , 2007 .
[3] D. Rothery,et al. The BepiColombo mission: An outstanding tool for investigating the Hermean environment , 2010 .
[4] W. Ip,et al. On the impact of multiply charged heavy solar wind ions on the surface of Mercury, the Moon and Ceres , 2008 .
[5] R. Killen,et al. Source rates and ion recycling rates for Na and K in Mercury's atmosphere , 2004 .
[6] Pekka Janhunen,et al. Solar wind and magnetospheric ion impact on Mercury's surface , 2003 .
[7] Low energy high angular resolution neutral atom detection by means of micro‐shuttering techniques: the BepiColombo SERENA/ELENA sensor , 2008, 0811.4722.
[8] Robert E. Johnson,et al. Lunar surface: Sputtering and secondary ion mass spectrometry , 1991 .
[9] A. Milillo,et al. Numerical and analytical model of Mercury's exosphere: Dependence on surface and external conditions , 2007 .
[10] L. Blomberg,et al. Magnetosphere–Exosphere–Surface Coupling at Mercury , 2007 .
[11] Kenneth G. Powell,et al. Interaction of Mercury with the Solar Wind , 1998 .
[12] E. Marsch,et al. The outer heliosphere : beyond the planets , 2000 .
[13] Pekka Janhunen,et al. The response of the Hermean magnetosphere to the interplanetary magnetic field , 2004 .
[14] Manish R. Patel,et al. The variability of Mercury's exosphere by particle and radiation induced surface release processes , 2003 .
[15] Giampiero Naletto,et al. PHEBUS: A double ultraviolet spectrometer to observe Mercury's exosphere , 2010 .
[16] R. Killen,et al. Space weather at Mercury , 2004 .
[17] U. Rohner,et al. The lunar exosphere: The sputtering contribution , 2007 .
[18] Johan Warell,et al. Mercury’s Surface Composition and Character as Measured by Ground-Based Observations , 2007 .
[19] A. Milillo,et al. Modelling Mercury's magnetosphere and plasma entry through the dayside magnetopause , 2007 .
[20] P. Esposito,et al. The occultation of Mariner 10 by Mercury , 1976 .
[21] James A. Slavin,et al. Mariner 10 observations of field-aligned currents at Mercury , 1997 .
[22] Thomas A. Bida,et al. The calcium exosphere of Mercury , 2005 .
[23] G. Gloeckler,et al. MESSENGER Observations of the Composition of Mercury's Ionized Exosphere and Plasma Environment , 2008, Science.
[24] Helmut Lammer,et al. Surface-Exosphere-Magnetosphere System Of Mercury , 2005 .
[25] A. Milillo,et al. Dayside H+ circulation at Mercury and neutral particle emission , 2005 .
[26] Helmut Lammer,et al. Monte-Carlo simulation of Mercury's exosphere , 2003 .
[27] T. Hill,et al. A Bx-interconnected magnetosphere model for Mercury , 2001 .
[28] W. Ip. Time-variable phenomena in the magnetosphere and exosphere of Mercury , 1997 .
[29] Thomas E. Moore,et al. A quantitative model of the planetary Na + contribution to Mercury’s magnetosphere , 2003 .
[30] R. Killen,et al. Spatial distribution of sodium on Mercury , 2006 .
[31] Helmut Lammer,et al. Mapping of the cusp plasma precipitation on the surface of Mercury , 2003 .
[32] T. Berkefeld,et al. Detection of neutral sodium above Mercury during the transit on 2003 May 7 , 2004 .
[33] Rosemary M. Killen,et al. The surface‐bounded atmospheres of Mercury and the Moon , 1999 .
[34] F. Leblanc,et al. Mercury's sodium exosphere: Magnetospheric ion recycling , 2003 .
[35] Maxim L. Khodachenko,et al. Processes that Promote and Deplete the Exosphere of Mercury , 2007 .
[36] Maxim L. Khodachenko,et al. The sodium exosphere of Mercury: Comparison between observations during Mercury's transit and model results , 2009 .