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W2005366199 abstract "Performance studies of a microscope‐camera system ( MCS ) and a laser ablation/ionisation mass spectrometer (LIMS) instrument (referred to here as a laser mass spectrometer or LMS ) are presented. These two instruments were designed independently for in situ analysis of solids on planetary surfaces and will be combined to a single miniature instrument suite for in situ chemical and morphological analysis of surface materials on planetary bodies. LMS can perform sensitive chemical (elemental, isotope and molecular) analyses with spatial resolution close to micrometre‐sized grains. It allows for studies with mass resolution ( M /Δ M ) up to 800 in ablation mode (elemental composition) and up to 1500 in desorption mode (molecular analysis). With an effective dynamic range of at least eight orders of magnitude, sensitive and quantitative measurements can be conducted of almost all elements and isotopes with a concentration larger than a few ppb atoms. Hence, in addition to the major element composition, which is important for the determination of mineralogical constituents of surface materials, trace elements can also be measured to provide information on mineral formation processes. Highly accurate isotope ratio measurements can be used to determine in situ geochronology of sample material and for investigations of various isotope fractionation processes. MCS can conduct optical imagery of mm‐sized objects at several wavelengths with micrometre spatial resolution for the characterisation of morphological surface details and to provide insight into surface mineralogy. Furthermore, MCS can help in the selection of sample surface areas for further mass spectrometric analysis of the chemical composition. Surface auto‐fluorescence measurements and images in polarised light are additional capabilities of the MCS , to identify either fluorescing minerals or organic materials, if present on the analysed surface, for further investigation by LMS . The results obtained by investigations of NIST reference materials, amino acid films and a natural graphite sample embedded in silicate rock are presented to illustrate the performance of the instruments and their potential to deliver chemical information for mineral and organic phases in their geological context." @default.
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W2005366199 date "2014-12-01" @default.
W2005366199 modified "2023-10-05" @default.
W2005366199 title "CAMAM: A Miniature Laser Ablation Ionisation Mass Spectrometer and Microscope-Camera System for<i>In Situ</i>Investigation of the Composition and Morphology of Extraterrestrial Materials" @default.
W2005366199 cites W1964656169 @default.
W2005366199 cites W1965409770 @default.
W2005366199 cites W1970728054 @default.
W2005366199 cites W1970833751 @default.
W2005366199 cites W1975992296 @default.
W2005366199 cites W1982954306 @default.
W2005366199 cites W1984476885 @default.
W2005366199 cites W1987513551 @default.
W2005366199 cites W1989355050 @default.
W2005366199 cites W1996484899 @default.
W2005366199 cites W2000097668 @default.
W2005366199 cites W2002922730 @default.
W2005366199 cites W2006686539 @default.
W2005366199 cites W2011536355 @default.
W2005366199 cites W2014113206 @default.
W2005366199 cites W2016273976 @default.
W2005366199 cites W2023916837 @default.
W2005366199 cites W2031182319 @default.
W2005366199 cites W2032552276 @default.
W2005366199 cites W2037431508 @default.
W2005366199 cites W2039143325 @default.
W2005366199 cites W2041126477 @default.
W2005366199 cites W2047482657 @default.
W2005366199 cites W2052076013 @default.
W2005366199 cites W2054854089 @default.
W2005366199 cites W2062088574 @default.
W2005366199 cites W2082411404 @default.
W2005366199 cites W2085286806 @default.
W2005366199 cites W2086222214 @default.
W2005366199 cites W2086483506 @default.
W2005366199 cites W2086993908 @default.
W2005366199 cites W2087153461 @default.
W2005366199 cites W2090098246 @default.
W2005366199 cites W2092230277 @default.
W2005366199 cites W2093855749 @default.
W2005366199 cites W2095853533 @default.
W2005366199 cites W2104400124 @default.
W2005366199 cites W2111285369 @default.
W2005366199 cites W2111779977 @default.
W2005366199 cites W2117272296 @default.
W2005366199 cites W2120276953 @default.
W2005366199 cites W2122014237 @default.
W2005366199 cites W2133798769 @default.
W2005366199 cites W2134184645 @default.
W2005366199 cites W2135537191 @default.
W2005366199 cites W2149492207 @default.
W2005366199 cites W2152577871 @default.
W2005366199 cites W2154950382 @default.
W2005366199 cites W2157949157 @default.
W2005366199 cites W2318031879 @default.
W2005366199 cites W4229942628 @default.
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W2005366199 doi "https://doi.org/10.1111/j.1751-908x.2014.00302.x" @default.
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