Nome |
# |
Infrared reflectance spectra of Martian analogues, file dfe4d05c-f348-eb50-e053-6605fe0a26fa
|
46
|
The SSDC contribution to the improvement of knowledge by means of 3D
data projections of minor bodies, file dfe4d05d-3059-eb50-e053-6605fe0a26fa
|
31
|
Dust measurements in the coma of comet 67P/Churyumov-Gerasimenko inbound to the sun, file dfe4d05c-c7b6-eb50-e053-6605fe0a26fa
|
16
|
The GIADA experiment for Rosetta mission to comet 46P/Wirtanen: Design and performances, file dfe4d05c-f27e-eb50-e053-6605fe0a26fa
|
13
|
Analysis of cosmic materials: Results on carbon and silicate laboratory analogues, file dfe4d05c-ed5a-eb50-e053-6605fe0a26fa
|
10
|
DENSITY AND CHARGE of PRISTINE FLUFFY PARTICLES FROM COMET 67P/CHURYUMOV-GERASIMENKO, file dfe4d05c-c6ca-eb50-e053-6605fe0a26fa
|
9
|
Laboratory analyses of meteoric debris in the upper stratosphere from settling bolide dust clouds, file dfe4d05c-ce66-eb50-e053-6605fe0a26fa
|
9
|
A fiery birth of aluminosilica analogs of refractory dust in the upper stratosphere, file dfe4d05c-f1cb-eb50-e053-6605fe0a26fa
|
9
|
On a Sugimoto-Whitehead effect in the Mediterranean Sea: sinking and mixing of a bottom current in the Bari Canyon, southern adriatic sea, file dfe4d05c-f8a1-eb50-e053-6605fe0a26fa
|
9
|
A New Orbiting Deployable System for Small Satellite Observations for Ecology and Earth Observation, file dfe4d05d-c393-eb50-e053-6605fe0a26fa
|
9
|
GIADA performance during Rosetta mission scientific operations at comet 67P, file dfe4d05c-ed5c-eb50-e053-6605fe0a26fa
|
8
|
DFA - The dust flux analyzer for the Rosetta orbiter, file dfe4d05c-f557-eb50-e053-6605fe0a26fa
|
8
|
ISOCAM Imaging of Comets 103P/Hartley 2 and 2P/Encke 1, file dfe4d05c-fa45-eb50-e053-6605fe0a26fa
|
8
|
The grain detection system for the GIADA instrument: design and expected performances, file dfe4d05c-f2e6-eb50-e053-6605fe0a26fa
|
7
|
Cometary coma dust size distribution from in situ IR spectra, file dfe4d05d-06d4-eb50-e053-6605fe0a26fa
|
7
|
Isotopic and textural analysis of giant unmelted micrometeorites – identification of new material from intensely altered 16O-poor water-rich asteroids, file dfe4d05d-9b4d-eb50-e053-6605fe0a26fa
|
7
|
COVID-19 lockdown effects on gender inequality, file dfe4d05d-9c70-eb50-e053-6605fe0a26fa
|
7
|
On the similarity of dust flows in the inner coma of comets, file dfe4d05d-b8e5-eb50-e053-6605fe0a26fa
|
7
|
Single minerals, carbon-and ice-coated single minerals for calibration of GIADA onboard ROSETTA to comet 67P/Churyumov-Gerasimenko, file dfe4d05c-1994-eb50-e053-6605fe0a26fa
|
6
|
VRI imaging of comet 46P/Wirtanen, file dfe4d05c-f1bd-eb50-e053-6605fe0a26fa
|
6
|
Production and processing of silicates in laboratory and in space, file dfe4d05c-f1bf-eb50-e053-6605fe0a26fa
|
6
|
Performance of micro-balances for dust flux measurement, file dfe4d05c-f1c1-eb50-e053-6605fe0a26fa
|
6
|
Laboratory experiments on cosmic dust analogues: the structure of small carbon grains, file dfe4d05c-f1ce-eb50-e053-6605fe0a26fa
|
6
|
Carbonaceous grain processing in space and in the laboratory, file dfe4d05c-f27c-eb50-e053-6605fe0a26fa
|
6
|
Laboratory simulation of carbon compounds expected in different astrophysical environments, file dfe4d05c-f7d9-eb50-e053-6605fe0a26fa
|
6
|
The infrared optical constants of limestone particles and implications for the search of carbonates on Mars, file dfe4d05c-fa40-eb50-e053-6605fe0a26fa
|
6
|
Dust particle flux and size distribution in the coma of 67P/Churyumov-Gerasimenko measured in situ by the COSIMA instrument on board Rosetta, file dfe4d05c-c87b-eb50-e053-6605fe0a26fa
|
5
|
Extinction signatures of amorphous carbon grains from the vacuum UV to the far-IR, file dfe4d05c-ed5d-eb50-e053-6605fe0a26fa
|
5
|
A planetary atmosphere simulator: Application to Titan, file dfe4d05c-f1bc-eb50-e053-6605fe0a26fa
|
5
|
ISOCAM Imaging of Comets 65P/Gunn and 46P/Wirtanen, file dfe4d05c-f556-eb50-e053-6605fe0a26fa
|
5
|
On the electronic structure of small carbon grains of astrophysical interest, file dfe4d05c-f720-eb50-e053-6605fe0a26fa
|
5
|
Characterization of cosmic materials in the laboratory, file dfe4d05c-f86e-eb50-e053-6605fe0a26fa
|
5
|
Refractory comet dust analogues by laser bombardment and arc discharge production: a reference frame for “Dusty Experiments” on-board Rosetta, file dfe4d05c-fa43-eb50-e053-6605fe0a26fa
|
5
|
Models of Rosetta/OSIRIS 67P Dust Coma Phase Function, file dfe4d05d-3891-eb50-e053-6605fe0a26fa
|
5
|
Sea state monitoring by ship motion measurements onboard a research ship in the antarctic waters, file dfe4d05d-9a29-eb50-e053-6605fe0a26fa
|
5
|
Extremophiles survival to simulated space conditions: an astrobiology model study, file dfe4d05c-1054-eb50-e053-6605fe0a26fa
|
4
|
Two refractory Wild2 terminal particles from a carrot-shaped track characterized combining MIR/FIR/Raman micro-spectroscopy and FE-SEM/EDS analyses, file dfe4d05c-1690-eb50-e053-6605fe0a26fa
|
4
|
Rotating dust particles in the coma of comet 67P/Churyumov-Gerasimenko, file dfe4d05c-a9a7-eb50-e053-6605fe0a26fa
|
4
|
67P/C-G inner coma dust properties from 2.2 au inbound to 2.0 auoutbound to the Sun, file dfe4d05c-c975-eb50-e053-6605fe0a26fa
|
4
|
The dust-to-ices ratio in comets and Kuiper belt objects, file dfe4d05c-cb7f-eb50-e053-6605fe0a26fa
|
4
|
Triple F—a comet nucleus sample return mission, file dfe4d05c-cf14-eb50-e053-6605fe0a26fa
|
4
|
Simulation of the dust flux on the ROSETTA probe during the orbiting phase around comet 46P/Wirtanen, file dfe4d05c-fa05-eb50-e053-6605fe0a26fa
|
4
|
The dust environment of comet 67P/Churyumov-Gerasimenko: results from Monte Carlo dust tail modelling applied to a large ground-based observation data set, file dfe4d05d-0430-eb50-e053-6605fe0a26fa
|
4
|
Evidence of sub-surface energy storage in comet 67P from the outburst of 2016 July 03, file dfe4d05d-0b1f-eb50-e053-6605fe0a26fa
|
4
|
Summer outbursts in the coma of comet 67P/Churyumov-Gerasimenko as observed by Rosetta-VIRTIS, file dfe4d05d-388f-eb50-e053-6605fe0a26fa
|
4
|
SIMBIO-SYS: Scientific Cameras and Spectrometer for the BepiColombo Mission, file dfe4d05d-9b48-eb50-e053-6605fe0a26fa
|
4
|
Participation of women scientists in ESA solar system missions: A historical trend, file dfe4d05d-9b4b-eb50-e053-6605fe0a26fa
|
4
|
A Kalman filter single point positioning for maritime applications using a smartphone, file dfe4d05d-a81d-eb50-e053-6605fe0a26fa
|
4
|
SARIM PLUS - sample return of comet 67P/CG and of interstellar matter, file dfe4d05b-ef58-eb50-e053-6605fe0a26fa
|
3
|
The 2016 Feb 19 outburst of comet 67P/CG: An ESA rosetta multi-instrument study, file dfe4d05c-c1c6-eb50-e053-6605fe0a26fa
|
3
|
Comet 67P/Churyumov-Gerasimenko preserved the pebbles that formed planetesimals, file dfe4d05c-c6c0-eb50-e053-6605fe0a26fa
|
3
|
The Castalia Mission to Main Belt Comet 133P/Elst-Pizarro, file dfe4d05c-f2ea-eb50-e053-6605fe0a26fa
|
3
|
Infrared spectral observations of comet 103P/Hartley 2 by ISOPHOT, file dfe4d05c-f62b-eb50-e053-6605fe0a26fa
|
3
|
Evidence for the formation of comet 67P/Churyumov-Gerasimenko through gravitational collapse of a bound clump of pebbles, file dfe4d05d-06d3-eb50-e053-6605fe0a26fa
|
3
|
Dynamics of non-spherical dust in the coma of 67P/Churyumov- Gerasimenko constrained by GIADA and ROSINA data, file dfe4d05d-06d6-eb50-e053-6605fe0a26fa
|
3
|
The phase function and density of the dust observed at comet 67P /Churyumov-Gerasimenko, file dfe4d05d-305a-eb50-e053-6605fe0a26fa
|
3
|
67P/Churyumov-Gerasimenko active areas before perihelion identified by GIADA and VIRTIS data fusion, file dfe4d05d-38a1-eb50-e053-6605fe0a26fa
|
3
|
Optical tweezers in a dusty universe: Modeling optical forces for space tweezers applications, file dfe4d05d-b0f2-eb50-e053-6605fe0a26fa
|
3
|
Stationary expansion of gas mixture from a spherical source into vacuum, file 6e8a09c7-0ec7-4846-aa6b-ddc365a999f2
|
2
|
Model of Aspherical Dust Dynamics for GIADA Experiment in the Coma of 67P/Churyumov-Gerasimenko: I. Comparison with the Spherical Approximation, file dfe4d05b-ba05-eb50-e053-6605fe0a26fa
|
2
|
State of Health during the Seven Years of Rosetta Cruise,, file dfe4d05b-c392-eb50-e053-6605fe0a26fa
|
2
|
GIADA (Grain Impact Analyser and Dust Accumulator) prepares for the comet 67P/Churyumov-Gerasimenko encounter,, file dfe4d05b-c47c-eb50-e053-6605fe0a26fa
|
2
|
DUSTER (Dust in the Upper Stratosphere Tracking Experiment and Return): a balloon-borne dust particle collector, file dfe4d05b-f6ca-eb50-e053-6605fe0a26fa
|
2
|
DUSTER (Dust in the Upper Stratosphere Tracking Experiment and Return): a balloon-borne dust particle collector, file dfe4d05b-f6cb-eb50-e053-6605fe0a26fa
|
2
|
Raman Microspectroscopy Performed on Extraterrestrial Particles, file dfe4d05b-f864-eb50-e053-6605fe0a26fa
|
2
|
Single minerals, carbon- and ice-coated single minerals for calibration of GIADA onboard ROSETTA to comet 67P/Churyumov-Gerasimenko, file dfe4d05c-1626-eb50-e053-6605fe0a26fa
|
2
|
Introducing a new stratospheric dust-collecting system with potential use for upper atmospheric microbiology investigations, file dfe4d05c-168b-eb50-e053-6605fe0a26fa
|
2
|
Rosetta, la Stele Spaziale., file dfe4d05c-44f5-eb50-e053-6605fe0a26fa
|
2
|
Multiscale correlated analysis of the Aguas Zarcas CM chondrite, file dfe4d05d-c0a4-eb50-e053-6605fe0a26fa
|
2
|
Multi-instrument analysis of 67P/Churyumov-Gerasimenko coma particles: COPS-GIADA data fusion, file 20bd3513-b651-428d-a643-c7ad7a3dc87f
|
1
|
GIADA: The Grain Impact Analyser and Dust Accumulator for the Rosetta space mission, file dfe4d05b-f3f2-eb50-e053-6605fe0a26fa
|
1
|
GIADA: The Grain Impact Analyser and Dust Accumulator for the Rosetta space mission, file dfe4d05b-f3f3-eb50-e053-6605fe0a26fa
|
1
|
MEDUSA: The ExoMars experiment for in-situ monitoring of dust and water vapour, file dfe4d05b-f57f-eb50-e053-6605fe0a26fa
|
1
|
Photometry of the Oort Cloud comet C/2009 P1 (Garradd): Pre-perihelion observations at 5.7 and 2.5 AU, file dfe4d05c-c5fc-eb50-e053-6605fe0a26fa
|
1
|
Totale |
422 |