|Popp, J.; Tarcea, N.; Baciu, L.; Thomas, N.; Cockell, C.; Edwards, H. W. G.; Gomez-Elvira, J.; Hilchenbach, M.; Hochleitner, Rupert; Hofer, S.; Hoffmann, Viktor H.; Hofmann, B.; Jessberger, E. K.; Kiefer, W.; Martinez-Frias, J.; Maurice, S.; Rull Pérez, F.; Schmitt, M.; Simon, G.; Sobron, F.; Weigand, W.; Whitby, J. A.; Wurz, P.; Battrick, B. (2004): EXTENDED-MIRAS: The instrumental approach for the search of traces of extinct and extant life on Mars, instrument setup. In: European Space Agency, (Special Publication) ESA SP, No. 543|
Whether there was or is life on Mars is a question of high interest to man. When looking for evidence of present or ancient life on Mars it might be not sufficient to disclose the chemical composition of the surface or subsurface material. Further information concerning for example the morphology of the sample under investigation or the spatial distribution of the observed chemicals or minerals is of similar relevance. So we need a reliable, automated, robust and miniaturized apparatus capable of resolving all the above mentioned problems in one effort. EXTENDED-MIRAS is an instrumental approach combining optical microscopy and micro-Raman spectroscopy with additional elementary characterization methods such as LIPS/LIBS (laser induced plasma spectrometry / laser induced breakdown spectrometry) or LMS (laser mass spectrometry).
|Faculties:||Geosciences > Department of Earth and Environmental Sciences > Crystallography and Materials Science|
|Subjects:||500 Science > 550 Earth sciences and geology|
|Deposited On:||10. Mar 2014 14:10|
|Last Modified:||29. Apr 2016 09:15|