Course summary

    1. CAMECA Global Presentation

    2. Dictionary for CAMECA words & acronyms

    3. Coming soon: Contact information

    4. Coming soon: Instrument quick presentation

    1. Dynamic Secondary Ion Mass Spectrometry

    2. SIMS principles / basics

    1. Exploring Water Distribution in the Early Solar System

    2. Investigating the formation conditions of the first solids in the solar system using SIMS

    3. Triple Oxygen Isotope Measurements by Multi Collector LG SIMS

    4. Dynamic SIMS for Characterization of Nuclear Materials

    5. Part 1: Pb-isotope imaging of ultra-high temperature zircon, the most widely used mineral in geochronology.

    6. Part 2: Full U-Pb analysis from complex imaged zircon grains from the early Earth and the Moon as well as terrestrial impact craters

    7. Part 3: Pb-Pb dating of lunar basalts and determination of lunar chemical geodynamics

    1. Advanced U-Th-Pb Geochronology with CAMECA Ultra High Sensitivity SIMS

    2. Analysis of mixed U-Pu materials with Large-Geometry SIMS

    3. Dating Volcanism on the Moon with LG-SIMS U-Pb Analysis of Chang’E 5 Returned Samples

    4. Digging deep into geochronology with a CAMECA LG-SIMS at the Swedish Museum of Natural History

    5. Geochemistry of Diamonds with Large-Geometry SIMS

    6. High Precision Sulfur Isotope Analysis with CAMECA Ultra High Sensitivity SIMS

    7. Innovative Detection Strategies on Large-Geometry SIMS

    8. Probing cosmochemical conundrums with a CAMECA SIMS at the University of Hawai‘i

    9. The search heats up for the source of Earth’s water

    1. Literature list

About this course

  • 23 lessons
  • 3.5 hours of video content