| Scientific rationale for Uranus and Neptune in situ explorations |
27 |
| AIDA DART asteroid deflection test: Planetary defense and science objectives |
23 |
| A look towards the future in the handling of space science mission geometry |
23 |
| The scientific objectives and payloads of Chang'E-4 mission |
16 |
| Verified solutions for the gravitational attraction to an oblate spheroid: Implications for planet mass and satellite orbits |
11 |
| The physical properties of meteorites |
11 |
| Lunar dust and dusty plasmas: Recent developments, advances, and unsolved problems |
11 |
| Composition, mineralogy and chronology of mare basalts and non-mare materials in Von Karman crater: Landing site of the Chang'E-4 mission |
10 |
| Uranus and Neptune missions: A study in advance of the next Planetary Science Decadal Survey |
10 |
| Crater density differences: Exploring regional resurfacing, secondary crater populations, and crater saturation equilibrium on the moon |
10 |
| The compositions of the lunar crust and upper mantle: Spectral analysis of the inner rings of lunar impact basins |
9 |
| Arecibo radar observations of near-Earth asteroid (3200) Phaethon during the 2017 apparition |
9 |
| MarsSI: Martian surface data processing information system |
8 |
| Laser-induced breakdown spectroscopy acoustic testing of the Mars 2020 microphone |
7 |
| Rotational evolution of self-gravitating aggregates with cores of variable strength |
7 |
| The science process for selecting the landing site for the 2020 Mars rover |
7 |
| Laboratory modeling of dust impact detection by the Cassini spacecraft |
6 |
| 0.2 to 10 keV electrons interacting with water ice: Radiolysis, sputtering, and sublimation |
6 |
| Explorer of Enceladus and Titan ((ET)-T-2): Investigating ocean worlds' evolution and habitability in the solar system |
6 |
| A method to derive surface thermophysical properties of asteroid (162173) Ryugu (1999JU3) from in-situ surface brightness temperature measurements |
6 |
| Combination of infrasound signals and complementary data for the analysis of bright fireballs |
6 |
| The CanMars Mars Sample Return analogue mission |
6 |
| Identification of organic molecules with a laboratory prototype based on the Laser Ablation-CosmOrbitrap |
6 |
| A survey of southern hemisphere meteor showers |
5 |
| Morphology and deformational history of Tellus Regio, Venus: Evidence for assembly and collision |
5 |
| Availability and delta-v requirements for delivering water extracted from near-Earth objects to cis-lunar space |
5 |
| VESPA: A community-driven Virtual Observatory in Planetary Science |
5 |
| A spectroscopic survey of the small near-Earth asteroid population: Peculiar taxonomic distribution and phase reddening |
5 |
| Global shape modeling using the OSIRIS-REx scanning Laser Altimeter |
5 |
| The Mukundpura meteorite, a new fall of CM chondrite |
5 |
| Coronal mass ejection hits mercury: AIKEF hybrid-code results compared to MESSENGER data |
5 |
| Orbit determination of the Lunar Reconnaissance Orbiter: Status after seven years |
5 |
| Geological characterization of the three high-priority landing sites for the Luna-Glob mission |
5 |
| The ionization efficiency of aluminum and iron at meteoric velocities |
5 |
| Study of injuries from the Chelyabinsk airburst event |
4 |
| The Multi-Temporal Database of Planetary Image Data (MUTED): A web-based tool for studying dynamic Mars |
4 |
| The Planetary Virtual Observatory and Laboratory (PVOL) and its integration into the Virtual European Solar and Planetary Access (VESPA) |
4 |
| Velocity distribution function of Na released by photons from planetary surfaces |
4 |
| Energetic electron dynamics near Callisto |
4 |
| ESA's Planetary Science Archive: Preserve and present reliable scientific data sets |
4 |
| Ablation of Ni from micrometeoroids in the upper atmosphere: Experimental and computer simulations and implications for Fe ablation |
4 |
| Asteroid families interacting with secular resonances |
4 |
| Analog experiments on thermal creep gas flow through Martian soil |
4 |
| Automated crater detection on Mars using deep learning |
4 |
| Regional unit definition for the nucleus of comet 67P/Churyumov-Gerasimenko on the SHAP7 model |
4 |
| Meteoroid structure and fragmentation |
4 |
| Modelling DESTINY+ interplanetary and interstellar dust measurements en route to the active asteroid (3200) Phaethon |
4 |
| The CO2 inventory on Mars |
4 |
| Evaluation of drilling-based water extraction methods for Martian ISRU from mid-latitude ice resources |
3 |
| The CaO orange system in meteor spectra |
3 |
