#LPSC2023
#LPSC2023
Program with Links to Abstracts
Schedule Overview
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Poster Session: Results from DART and LICIACube 4: Humanity's First Planetary Defense Test Mission
Wednesday, March 15, 2023, 6:30 PM
iPosters/Gather.town
Nath A.*
Citizen Science for Planetary Defense: Using Remote Telescopes, Open Data, and Python to Study the Didymos System Before and After the Impact and Teach Others
[#2958]
My citizen science project aimed to use open science to measure changes in the Didymos system before and after the DART impact.
My citizen science project aimed to use open science to measure changes in the Didymos system before and after the DART impact.
Zinzi A.*
Della Corte V.
Barnouin O. S.
Deshapriya J. D. P.
Hasselmann P.
et al.
Constraining the Shape of Dimorphos Using Computer Vision on LICIACube LUKE Images
[#2021]
We developed an automated pipeline to analyze LUKE images. The size of the Dimorphos shadowed hemisphere found is compatible with to what was found by DART.
We developed an automated pipeline to analyze LUKE images. The size of the Dimorphos shadowed hemisphere found is compatible with to what was found by DART.
Trigo-Rodríguez J. M.*
Pérez-García I.
Llenas J. M.
Castro-Tirado A. J.
Fernández-García E.
et al.
Photometric Follow-Up Observations of the DART Impact Effects on the Didymos System from Spain
[#1425]
Dust trail observations and G-band photometric results of an observing campaign in Spain to monitor DART impact effects on Didymos system are presented.
Dust trail observations and G-band photometric results of an observing campaign in Spain to monitor DART impact effects on Didymos system are presented.
Agrusa H. F.*
Gkolias I.
Tsiganis K.
Meyer A. J.
Scheeres D. J.
et al.
The Post-Impact Spin State of Dimorphos Resulting from the DART Impact
[#2223]
Dimorphos gets hit / orbit dynamics ensue / it might get chaotic.
Dimorphos gets hit / orbit dynamics ensue / it might get chaotic.
Lazzarin M.*
La Forgia F.
Migliorini A.
Farina A.
Frattin E.
et al.
Rotationally-Resolved Characterization of the Near-Earth Didymos-Dimorphos Binary System After the NASA/DART Impact
[#2080]
A spectroscopic investigation of the binary system Dydimos-Dimorphos has been perfomed after the DART impact from Asiago telescopes (180-cm and 120-cm).
A spectroscopic investigation of the binary system Dydimos-Dimorphos has been perfomed after the DART impact from Asiago telescopes (180-cm and 120-cm).
Ramsley K. R.*
Head J. W.
DART Impact: Setting Constraints Using the Tsiolkovsky Rocket Equation
[#1079]
Using the Tsiolkovsky rocket equation, our study suggests why the DART spacecraft accelerated asteroid Dimorphous ~5X faster than consensus predictions.
Using the Tsiolkovsky rocket equation, our study suggests why the DART spacecraft accelerated asteroid Dimorphous ~5X faster than consensus predictions.
Gisellu C.
Palomba E.*
Dirri F.
Longobardo A.
Biondi D.
et al.
In-Situ Dust Detection for Didymos-Dimorphos Binary System Environment Characterization
[#2732]
VISTA is a dust sensor that will fly onboard the Milani CubeSat for ESA’s Hera space mission. It will detect the presence of dust around the Didymos binary system.
VISTA is a dust sensor that will fly onboard the Milani CubeSat for ESA’s Hera space mission. It will detect the presence of dust around the Didymos binary system.
Kanamaru M.*
Tommei G.
Okada T.
Sakatani N.
Shimaki Y.
et al.
Thermophysical Model Development to Simulate Non-Gravitational Acceleration on Binary Asteroid
[#2949]
We developed a thermophysical model for a binary asteroid and simulated non-gravitational acceleration.
We developed a thermophysical model for a binary asteroid and simulated non-gravitational acceleration.
*presenter
