Sahoo, R. N.; Paul, M.; Köster, U.; Scott, R.; Tessler, M.; Zylstra, A.; Avila, M. L.; Dickerson, C.; Jayatissa, H.; Kohen, M.S.; et al(
, EPJ Web of Conferences)
Mattoon, C.M.; Vogt, R.; Escher, J.; Thompson, I.
(Ed.)
The cross-section of the thermal neutron capture41Ar(n,γ)42Ar(t1/2=32.9 y) reaction was measured by irradiating a40Ar sample at the high-flux reactor of Institut Laue-Langevin (ILL) Grenoble, France. The signature of the two-neutron capture has been observed by measuring the growth curve and identifying the 1524.6 keV γ-lines of the shorter-lived42K(12.4 h) β−daughter of42Ar. Our preliminary value of the41Ar(n,γ)42Ar thermal cross section is 240(80) mb at 25.3 meV. For the first time, direct counting of42Ar was performed using the ultra-high sensitivity technique of noble gas accelerator mass spectrometry (NOGAMS) at Argonne National Laboratory, USA.
Spencer, Brandon; Thigpen, James; Merschat, Arthur; Powell, Nicholas E.; McDonald, C.S.(
, Abstracts Geological Society of America)
The southern Appalachians preserve a composite thermal and deformational history that involves at least four orogenic pulses and spans >800 Myr from the middle Mesoproterozoic to the late Paleozoic. This complex history has made the discrete separation of metamorphic and deformational events persistently challenging, particularly for Paleozoic events. To address this, we report results from a new suite of amphibole 40Ar/39Ar data from the eastern Blue Ridge and Inner Piedmont (Tugaloo and Cat Square terranes) of western North Carolina to constrain the timing of cooling from thermal conditions greater than ~550 °C. Samples were collected along an orogen-normal transect from the Newton window, near the Central Piedmont suture, to the eastern Blue Ridge, west of the Grandfather Mountain window. Amphibole gneiss from the Spruce Pine area and Wilson Creek gneiss from the Grandfather Mountain window record dates of 380 and 496 Ma, respectively. Across the Brevard Fault zone, one sample from the western Inner Piedmont Tugaloo terrane yields a date of 377 Ma. Southeast of the Brindle Creek fault in the Cat Square terrane, three samples yield dates of 344-320 Ma while two samples from Tugaloo rocks of the Newton window yield dates of 335-330 Ma. Together, these dates suggest regional cooling of the Inner Piedmont progressed from northwest to southeast following the Neoacadian orogeny. The data also indicate either that high-grade (>550 °C) Alleghanian metamorphism may have only reset the amphibole40Ar/39Ar systematics in the most southeastern parts of the Inner Piedmont, near the Central Piedmont suture, or that these high-grade Neoacadian rocks were not exhumed from the mid-crust until the Alleghanian. Additionally, our new amphibole 40Ar/39Ar dates northwest of the Brevard Fault zone are not reset during Neoacadian orogenesis. Collectively, we interpret that high-grade metamorphism in this part of the southern Appalachians must have occurred prior to the Alleghanian, placing limits on the northwesternmost extent of mid- to high-grade Alleghanian metamorphism in this part of southern Appalachians. Additional data from the Sauratown Mountains window to the northeast and South Carolina and Georgia to the southwest may further constrain the spatial extent of the Neoacadian thermal event in the southern Appalachians.
Setera, Jacob B.; Turrin, Brent D.; Herzog, Gregory F.; VanTongeren, Jill A.; Delaney, Jeremy S.; Swisher, III, Carl C.(
, Geochemistry, Geophysics, Geosystems)
Abstract
We present a method for40Ar/39Ar step‐heating measurements on anhydrous K‐bearing minerals. Samples placed in dimples on Ta foil platforms are heated indirectly with a laser while temperatures are measured with a two‐color pyrometer. The system provides a simple, inexpensive, and reliable means for the heating of samples as small as a few to tens of micrograms. Results for plagioclase separates from the Rustenburg Layered Suite of the circa 2.06 Ga Bushveld Complex closely match previously published data.
Carrasco-Núñez, G., Bernal, J. P., Dávila, P., Jicha, B., Giordano, G., and Hernández, J. Reappraisal of Los Humeros Volcanic Complex by New U/Th Zircon and 40 Ar/ 39 Ar Dating: Implications for Greater Geothermal Potential. Geochemistry, Geophysics, Geosystems 19.1 Web. doi:10.1002/2017GC007044.
Carrasco-Núñez, G., Bernal, J. P., Dávila, P., Jicha, B., Giordano, G., & Hernández, J. Reappraisal of Los Humeros Volcanic Complex by New U/Th Zircon and 40 Ar/ 39 Ar Dating: Implications for Greater Geothermal Potential. Geochemistry, Geophysics, Geosystems, 19 (1). https://doi.org/10.1002/2017GC007044
Carrasco-Núñez, G., Bernal, J. P., Dávila, P., Jicha, B., Giordano, G., and Hernández, J.
"Reappraisal of Los Humeros Volcanic Complex by New U/Th Zircon and 40 Ar/ 39 Ar Dating: Implications for Greater Geothermal Potential". Geochemistry, Geophysics, Geosystems 19 (1). United States: DOI PREFIX: 10.1029. https://doi.org/10.1002/2017GC007044.https://par.nsf.gov/biblio/10049858.
@article{osti_10049858,
place = {United States},
title = {Reappraisal of Los Humeros Volcanic Complex by New U/Th Zircon and 40 Ar/ 39 Ar Dating: Implications for Greater Geothermal Potential},
url = {https://par.nsf.gov/biblio/10049858},
DOI = {10.1002/2017GC007044},
abstractNote = {Not Available},
journal = {Geochemistry, Geophysics, Geosystems},
volume = {19},
number = {1},
publisher = {DOI PREFIX: 10.1029},
author = {Carrasco-Núñez, G. and Bernal, J. P. and Dávila, P. and Jicha, B. and Giordano, G. and Hernández, J.},
}
Warning: Leaving National Science Foundation Website
You are now leaving the National Science Foundation website to go to a non-government website.
Website:
NSF takes no responsibility for and exercises no control over the views expressed or the accuracy of
the information contained on this site. Also be aware that NSF's privacy policy does not apply to this site.
