New high-resolution step heating experiments using a coupled Diode laser and thermocouple for thermochronology applications

Abstract: <p>Step-heating experiments constitute a key technique to study the release of volatile elements from geological materials as a function of temperature. In the case of noble gases (He, Ne, Ar, Kr, and Xe), step-heating is particularly useful to determine diffusion kinetics, structural defects, or spatial homogeneity within the material. These parameters are critical in the application of diffusion-based thermochronology such as the apatite (U-Th)/He system, where mapping out the spatial distribut… Show more

“…Direct, defocused, and power‐controlled laser heating of the Pt packets, however, proved sensitive to overheating (e.g., Brennan et al., 2020), which resulted in inconsistencies in probing each grain' edge at low‐temperature steps. To account for these inconsistencies, an indirect laser‐heating protocol was developed using a custom‐made alumina crucible coupled with a K‐type thermocouple to improve relative temperature control (Amalberti et al., 2023), and this procedure was utilized during stepped‐heating analyses of HZB4 and FHB‐irradiated Durango shards.…”

Improving the Accessibility and Efficiency of Proton Irradiations for ⁴He/³He Thermochronology

“…Direct, defocused, and power‐controlled laser heating of the Pt packets, however, proved sensitive to overheating (e.g., Brennan et al., 2020), which resulted in inconsistencies in probing each grain' edge at low‐temperature steps. To account for these inconsistencies, an indirect laser‐heating protocol was developed using a custom‐made alumina crucible coupled with a K‐type thermocouple to improve relative temperature control (Amalberti et al., 2023), and this procedure was utilized during stepped‐heating analyses of HZB4 and FHB‐irradiated Durango shards.…”

Improving the Accessibility and Efficiency of Proton Irradiations for ⁴He/³He Thermochronology