Calibration and preparation of the data analysis of the DORN experiment on board the Chang'E 6 lunar mission.

Abstract: As part of the first agreement between the French (CNES) and the Chinese (CNSA) space agencies in terms of space exploration, the DORN instrument will fly on board the Chinese Chang'E 6 mission in 2024. It aims to measure the amount of Radon escaping from the lunar soil to better understand what governs the concentration of this noble gas which contributes to the endogenous origin of the lunar exosphere. This instrument is an alpha-particle spectrometer able to detect the radioactive decay of two Radon isotopes and their progeny. These emissions act as a tracing signal for the processes happening in the lunar sub-surface. During the Assembly, Integration & Testing phase of the Flight Model of the instrument, different scientific concerns must be addressed to characterise the behaviour of the instrument before it is commissioned to China for its final tests and integration into the lander before the mission. This means that all the measuring process, since the alpha-particle deposits its energy into the detector until it is counted as an event in a spectral data product, has to be meticulously analysed and assessed to verify if it is compliant with the instrument's scientific requirements. Under this context, several data analysis tools have been developed to retrieve the behaviour characteristics of the instrument. Firstly, due to the changing conditions that a space mission to the lunar environment undergoes, it is needed to perform an in-flight calibration at every measurement. To this regard, a program able to obtain the calibration parameters at several temperatures within its operative range along with the spectral resolution of each detector has been developed and used during the Thermal Vacuum tests held at CNES. Secondly, the numerical pipeline, responsible for processing and storing onboard data, must undergo stress testing and be exposed to conditions resembling the lunar environment. As a result, the software's capabilities enabling the instrument to derive particle energy and eliminate undesired detections have undergone thorough testing. These tools have been used to verify the compliance of the instrument with its respective scientific requirements as well as to validate its current software version. They not only have played an important role in finalising the development of the instrument in France but will be of great use during the tests done in China and during the space operations on the Moon.