Identification of organic molecules with a laboratory prototype based on the Laser Ablation-CosmOrbitrap
L. Selliez, C. Briois, N. Carrasco, L. Thirkell, R. Thissen, M. Ito,, F.-R. Orthous-Daunay, G. Chalumeau, F. Colin, H. Cottin, C. Engrand, L., Flandinet, N. Fray, B. Gaubicher, N. Grand, J.-P. Lebreton, A. Makarov, S., Ruocco, C. Szopa, V. Vuitton, P. Zapf

TL;DR
This study demonstrates the successful identification of complex organic molecules using a novel space-compatible mass spectrometer prototype combining laser ablation and the CosmOrbitrap analyzer, highlighting its potential for future extraterrestrial exploration.
Contribution
It introduces a space instrument prototype that combines Laser Ablation with the CosmOrbitrap mass analyzer for in situ organic molecule identification in space.
Findings
Successfully identified HOBt and BBOT molecules in blind tests
Achieved high mass resolving power of over 69,000
Proved the prototype's potential for space organic analysis
Abstract
In the Solar System, extra-terrestrial organic molecules have been found on cometary primitive objects, on Titan and Enceladus icy moons and on Mars. Identification could be achieved for simple organic species by remote sensing based on spectroscopic methods. However in situ mass spectrometry is a key technology to determine the nature of more complex organic matter. A new concept of mass analyser offering ultra-high mass resolving power of more than 50,000 at m/z 56 (under high vacuum condition about 10-9 mbar) is currently being developed for space applications: the CosmOrbitrap (Briois et al., 2016), based on the OrbitrapTM technology. This work challenges the use of LAb-CosmOrbitrap, a space instrument prototype combining Laser Ablation ionisation and the CosmOrbitrap mass analyser, to identify solid organic molecules of relevance to the future space exploration. For this purpose a…
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