2022
DOI: 10.1007/s11430-022-9966-5
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A novel method for simultaneous analysis of particle size and mineralogy for Chang’E-5 lunar soil with minimum sample consumption

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Cited by 17 publications
(2 citation statements)
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“…S2). examined 155 mg scooped CE-5 soil for its particle size distribution and indicated that up to 95 % of the particle sizes are <10 lm, which is the same as our results obtained by a Ramanbased particle analysis system (Cao et al, 2022) (Fig. S2a).…”
Section: Homogeneity Of the Ce-5 Lunar Soil And Ground-truth Calibrat...supporting
confidence: 87%
“…S2). examined 155 mg scooped CE-5 soil for its particle size distribution and indicated that up to 95 % of the particle sizes are <10 lm, which is the same as our results obtained by a Ramanbased particle analysis system (Cao et al, 2022) (Fig. S2a).…”
Section: Homogeneity Of the Ce-5 Lunar Soil And Ground-truth Calibrat...supporting
confidence: 87%
“…However, if the laser spot size (∼100 μm) exceeds the mineral grain size, the probability of exciting composited Raman spectra increases significantly. Planetary surface minerals are commonly fine‐grained (∼μm); for example, the mean size of the samples scooped by the CE‐5 mission was 3.5 μm (K. Cao et al., 2022). Additionally, a smaller laser spot diameter necessitates a higher focusing precision, which is not conducive to Raman applications in planetary missions.…”
Section: Discussionmentioning
confidence: 99%