Add to ORKGMeasurements of cosmogenic Cl-36 in terrestrial rocks provide quantitative information about exposure ages of landforms and surface features. The isotope dilution method for preparing Cl-36 samples is now widely used because it allows Cl-36 and Cl to be measured simultaneously on a single accelerator mass spectrometry target, increases the accuracy and precision of Cl determinations, and reduces rock sample size and laboratory work. In this paper we describe a new implementation of isotope dilution to Cl-36 dating, report experimental data verifying the accuracy of this approach, and show how errors in the measured stable isotope ...
Cosmogenic 36Cl analysis by accelerator mass spectrometry (AMS) is a valuable environmental and geol...
Published cosmogenic 36Cl SLHL production rates from Ca and K spallation differ by almost 50% (Gosse...
Two natural mineral separates, labeled CoCal-N and CoFsp-N, have been prepared to serve as intercomp...
International audienceThe cosmonuclide Cl-36 is relevant for hydrological applications due to its co...
Accurate determination of chlorine concentrations in terrestrial rocks is of importance for the inte...
36Cl AMS measurements at natural isotopic concentrations have yet been performed only at tandem acce...
International audienceThe abundant production of in situ cosmogenic Cl-36 from potassium renders Cl-...
Tiankeng, a typical Karst relief of the Late Quaternary Period, in the south of China, plays an impo...
This contribution describes the optimization of chlorine extraction from silicate samples by pyrohyd...
innovations, validation a would be useful for samples with low concentration of Cl or low 36Cl/Cl wh...
The CRONUS-Earth Project is an NSF funded, national collaboration of geoscientists, whose goal is to...
Two natural mineral separates, labeled CoCal-N and CoFsp-N, have been prepared to serve as intercomp...
Cosmogenic 36Cl analysis by accelerator mass spectrometry (AMS) is a valuable environmental and geol...
Published cosmogenic 36Cl SLHL production rates from Ca and K spallation differ by almost 50% (Gosse...
Two natural mineral separates, labeled CoCal-N and CoFsp-N, have been prepared to serve as intercomp...
International audienceThe cosmonuclide Cl-36 is relevant for hydrological applications due to its co...
Accurate determination of chlorine concentrations in terrestrial rocks is of importance for the inte...
36Cl AMS measurements at natural isotopic concentrations have yet been performed only at tandem acce...
International audienceThe abundant production of in situ cosmogenic Cl-36 from potassium renders Cl-...
Tiankeng, a typical Karst relief of the Late Quaternary Period, in the south of China, plays an impo...
This contribution describes the optimization of chlorine extraction from silicate samples by pyrohyd...
innovations, validation a would be useful for samples with low concentration of Cl or low 36Cl/Cl wh...
The CRONUS-Earth Project is an NSF funded, national collaboration of geoscientists, whose goal is to...
Two natural mineral separates, labeled CoCal-N and CoFsp-N, have been prepared to serve as intercomp...
Cosmogenic 36Cl analysis by accelerator mass spectrometry (AMS) is a valuable environmental and geol...
Published cosmogenic 36Cl SLHL production rates from Ca and K spallation differ by almost 50% (Gosse...
Two natural mineral separates, labeled CoCal-N and CoFsp-N, have been prepared to serve as intercomp...