M-BC-Attendees - BepiColombo
Registered Participants
| # | First Name | Surname | Abstract Title |
| 1 | Johannes | Benkhoff | |
| 2 | Doris | Breuer | |
| 3 | Emma | Bunce | |
| 4 | Matthew | Burger | Mercury's Calcium Exosphere in the MESSENGER Era |
| 5 | Paul | Byrne | Insights into the Volcanic History of Mercury from Four Years in Orbit |
| 6 | Cristian | Carli | |
| 7 | Timothy A. | Cassidy | MESSENGER Observations of Mercury's Sodium Exosphere |
| 8 | Nancy | Chabot | Mercury's Polar Regions: MESSENGER's Evidence for Water Ice in the North and What We Know about the South |
| 9 | B | Charlier | Mantle sources and melting conditions for basalts on Mercury |
| 10 | Ignacio | Clerigo | |
| 11 | M | D'Amore | MERTIS calibration campaign for performance characterization. |
| 12 | Dominique | Delcourt | Mercury's magnetosphere - Bepi Colombo science possibilities |
| 13 | Piero | D'Incecco | Geologically supervised classification of Rembrandt basin and Caloris basin on Mercury: from MESSENGER to BepiColombo |
| 14 | Alain | Doressoundiram | |
| 15 | Sabrina | Ferrari |
A Study of Thermal Expansion on the Predicted Mercury Surface Minerals: Preparing for MERTIS on BepiColombo |
| 16 | Markus | Fraenz | |
| 17 | Elizabeth | Frank | High-resolution measurements of Mercury's surface composition with the MESSENGER X-Ray Spectrometer |
| 18 | Masaki | Fujimoto | |
| 19 | Valentina | Galluzzi | |
| 20 | Antonio | Genova | The gravity field of Mercury after the MESSENGER mission |
| 21 | Julien | Gouman | Simulation of the performance of the BepiColombo Laser Altimeter instrument based on MESSENGER data |
| 22 | Manuel | Grande | |
| 23 | Ernst | Hauber | |
| 24 | Steven | Hauck | Mercury's interior: New views from MESSENGER |
| 25 | Jörn | Helbert | |
| 26 | Daniel | Heyner | Inductive Response to Tail Loading Events at Mercury |
| 27 | Takayuki | Hirai | Direct measurement of interplanetary dust influx on Mercury -- An origin of sodium exosphere and space weathering of Mercury |
| 28 | Hauke | Hussmann | |
| 29 | Suzanne | Imber | Magnetospheric flux transport at Mercury |
| 30 | Luigi | Imperi | Mercury Orbiter Radioscience Experiment (MORE): benefits from an extended mission |
| 31 | Noam | Izenberg | Mercury's Hollows: Morphology and Spectral and Elemental Variations |
| 32 | P | James | INSIGHTS FROM MESSENGER INTO THE CRUSTAL STRUCTURE OF MERCURY'S GEOCHEMICAL TERRANES |
| 33 | Catherine | Johnson | Mercury's Magnetic Field: MESSENGER observations and BepiColombo opportunities |
| 34 | Shunichi | Kamata | The impact of a near-zero obliquity on the evolution of Mercury |
| 35 | S | Kameda | Seasonal variability of Mercury's sodium and interplanetary dust distribution |
| 36 | Taichi | Kawamura | |
| 37 | Rosemary | Killen |
1)Impact Vaporization as a Source of Mercury's Calcium Exosphere with Evidence for a Meteor Shower 2)How Bepi-Colombo Can Extend and Build on MESSENGER Observations of the Exosphere |
| 38 | Christian | Klimczak | Mercury's tectonics informed by MESSENGER photogeology and topography |
| 39 | Haje | Korth | Modeling Mercury's magnetospheric magnetic field: Past, presence, and future |
| 40 | Vladimir | Kottsov | |
| 41 | Norbert | Krupp | |
| 42 | Satoshi | Kurita | |
| 43 | Francois | Leblanc | A comparison between Messenger-THEMIS ground based observations |
| 44 | Elisabet | Liljeblad | Low latitude boundary layer of the magnetopause of Mercury |
| 45 | Simon | Lindsay | Localised electron induced X-ray fluorescence on the nightside surface of Mercury and its implications for magnetospheric structure |
| 46 | F | Lüdicke |
Orbit simulations for BepiColombo using MESSENGERbased high-order Mercury gravity field data |
| 47 | Mirco Junior | Mariani | Mercury Gravity Field and Rotational State from the BepiColombo Radio Science Experiment |
| 48 | Adrian | Martindale | Future observations of Mercury with BepiColombo's Mercury Imaging X-ray Spectrometer (MIXS) |
| 49 | Santa | Martinez | |
| 50 | Matteo | Massironi | |
| 51 | Shoya | Matsuda | |
| 52 | Alessandro | Maturilli | Mercury Surface in the Planetary Emissivity Laboratory (PEL): Preparing for MERTIS on BepiColombo |
| 53 | Jonathan | McAuliffe | |
| 54 | William | McClintock | Exploring Mercury's Surface-bound Exosphere from Orbit: Observations by the Mercury Atmospheric and Surface Composition Spectrometer aboard the MESSENGER Spacecraft |
| 55 | Helen | Middleton |
Mercury's disappearing dayside magnetosphere events (MESSENGER): Evidence for severe dayside erosion and/or compression? |
| 56 | Go | Murakami | Mercury Sodium Atmosphere Spectral Imager (MSASI) onboard BepiColombo/MMO |
| 57 | Gregory | Neumann | Measurements of surface reflectance and roughnesss on Mercury with the Mercury Laser Altimeter |
| 58 | Masaki | Nishino | A long-term all-sky imager observation of lunar sodium tail |
| 59 | Reiko | Nomura | |
| 60 | J | Oberst | MERCURY REFERENCE FRAME AND TOPOGRAPHIC BASE MAP FROM COMBINED MESSENGER STEREO PHOTOGRAMMETRY AND LASER ALTIMETRY |
| 61 | Makiko | Ohtake | |
| 62 | Louise | Prockter | Global map of Mercury |
| 63 | Eric | Quémerais | |
| 64 | Jim | Raines | MESSENGER's plasma observations in Mercury's northern magnetospheric cusp |
| 65 | Attilio | Rivoldini | Constraining Mercury's interior structure with geodesy data and its present thermal state |
| 66 | Mark | Robinson | |
| 67 | David | Rothery | Geologic mapping of Mercury in preparation for BepiColombo |
| 68 | Giulia | Schettino | Mercury Orbiter Radio Science Experiment (MORE): global full-cycle numerical simulation |
| 69 | Jim | Slavin | Dynamics and response of Mercury's magnetosphere to solar wind conditions |
| 70 | David E | Smith | Topography and Shape of Mercury from the MESSENGER Laser Altimeter |
| 71 | Sean | Solomon | |
| 72 | Tilman | Spohn | the Big Picture: expected contributions of BepiColombo |
| 73 | A | Stark | FIRST MESSENGER ORBITAL OBSERVATIONS OF MERCURY'S LIBRATIONS |
| 74 | G | Steinbrugge | MEASURING MERCURY'S TIDAL DEFORMATION BY LASER ALTIMETRY PERSPECTIVES FOR BELA ONBOARD THE BEPICOLOMBO SPACECRAFT |
| 75 | Futoshi | Takahashi | Dynamo model explanation for Mercury's unusual magnetic field |
| 76 | Chihiro | Tao | |
| 77 | Alexander | Tavrov | |
| 78 | Hidenori | Terasaki | Density and sound velocity of liquid Fe-alloys under high pressure: Implication to Mercury core |
| 79 | Rebecca | Thomas | MESSENGER-based targets for high-resolution compositional analysis by BepiColombo |
| 80 | Nicola | Tosi | Mercury's low-degree geoid and topography from insolation-driven elastic deformation |
| 81 | Tim | Van Hoolst | |
| 82 | Faith | Vilas | Can MESSENGER Visible to Near-Infrared Photometric and Spectral Data Inform Predictions about BepiColombo Mid-Infrared Spectral Findings? |
| 83 | Soshana | Weider | Geochemistry of Mercury's surface: Results from MESSENGER |
| 84 | Wim | van Westrenen | TBD - Invited talk on Interior Block Day 2 @14:45 |
| 85 | Mark | Wieczorek | Thickness of the crust of Mercury |
| 86 | Joe | Zender |