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Autori principali: Tahtali, E., Kreuzig, C., Meier, G., Blum, J., Overmeyer, L., Lotz, C.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.11121
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author Tahtali, E.
Kreuzig, C.
Meier, G.
Blum, J.
Overmeyer, L.
Lotz, C.
author_facet Tahtali, E.
Kreuzig, C.
Meier, G.
Blum, J.
Overmeyer, L.
Lotz, C.
contents Small solar system bodies are becoming increasingly important as missions like NASA's OSIRIS-REx show. However, the study of the characteristics and behavior of these objects on Earth is a challenge as the simulation of their environmental conditions is difficult. We present in this paper an approach to enable the simulation of SSSB conditions in a drop tower facility on Earth, which is being addressed as part of the AKUS ("Activity of Comets under Partial Gravity") project. This especially concerns their prevailing gravity levels, which range between 10^-2 g and 10^-4 g. In order to simulate the conditions of SSSB as accurately as possible, an acceleration system based on servo motors and spindle axes has been developed. The accelerations are transferred from the motors to the spindle axes containing a comet-like sample. These are together placed inside a vacuum chamber providing a vacuum quality of 10^-6 mbar. The whole setup is installed inside the Einstein-Elevator. Our results show that, with the current setup, we are able to generate conditions from 10^-2 g down to 10^-3 g. The maximum deviations under these conditions are +/-5x10^-4 g. Additionally, this setup offers the opportunity to conduct different kinds of experiments in which the described gravity levels and vacuum conditions are needed.
format Preprint
id arxiv_https___arxiv_org_abs_2511_11121
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Simulation Platform for Small Solar System Bodies using the Einstein-Elevator
Tahtali, E.
Kreuzig, C.
Meier, G.
Blum, J.
Overmeyer, L.
Lotz, C.
Instrumentation and Methods for Astrophysics
Small solar system bodies are becoming increasingly important as missions like NASA's OSIRIS-REx show. However, the study of the characteristics and behavior of these objects on Earth is a challenge as the simulation of their environmental conditions is difficult. We present in this paper an approach to enable the simulation of SSSB conditions in a drop tower facility on Earth, which is being addressed as part of the AKUS ("Activity of Comets under Partial Gravity") project. This especially concerns their prevailing gravity levels, which range between 10^-2 g and 10^-4 g. In order to simulate the conditions of SSSB as accurately as possible, an acceleration system based on servo motors and spindle axes has been developed. The accelerations are transferred from the motors to the spindle axes containing a comet-like sample. These are together placed inside a vacuum chamber providing a vacuum quality of 10^-6 mbar. The whole setup is installed inside the Einstein-Elevator. Our results show that, with the current setup, we are able to generate conditions from 10^-2 g down to 10^-3 g. The maximum deviations under these conditions are +/-5x10^-4 g. Additionally, this setup offers the opportunity to conduct different kinds of experiments in which the described gravity levels and vacuum conditions are needed.
title A Simulation Platform for Small Solar System Bodies using the Einstein-Elevator
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2511.11121