Title | Characterization, interpretation, and modelling of multikinetic apatite fission-track data using elemental data |
Download | Downloads |
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Licence | Please note the adoption of the Open Government Licence - Canada
supersedes any previous licences. |
Author | Issler, D R ;
Lane, L S ; O'Sullivan, P B |
Source | Geological Survey of Canada, Scientific Presentation 94, 2018, 1 sheet, https://doi.org/10.4095/311302 Open Access |
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Year | 2018 |
Publisher | Natural Resources Canada |
Meeting | Thermo 2018 - 16th International Conference on Thermochronology; Quedlinburg; DE; September 16-21, 2018 |
Document | serial |
Lang. | English |
Media | on-line; digital |
Related | This publication is related to Characterisation,
interpretation and modelling of multi-kinetic apatite fission track data using elemental data |
File format | pdf |
Subjects | geochronology; fission-track dates; apatite; modelling; thermal analyses; thermal history; temperature; provenance; Methodology; Phanerozoic; Cenozoic; Tertiary; Mesozoic; Paleozoic |
Illustrations | plots; frequency distribution diagrams; time series |
Program | GEM2: Geo-mapping for Energy and Minerals Mackenzie Corridor, Shield to Selwyn |
Released | 2018 12 24 |
Summary | (Plain Language Summary, not published) Apatite fission track (AFT) thermochronology can be used for reconstructing the thermal history of rock samples at temperatures below 200°C. This
comprehensive report contains supplementary detailed data and model results that support a manuscript for external journal publication. The journal manuscript presents a new multi-kinetic AFT interpretation and modelling method that is used to
analyse the thermal history of the Richardson Mountains in northern Yukon. |
GEOSCAN ID | 311302 |
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