Your search keyword '"Matheson, Zachary"' showing total 3 results

1. Efficient method for estimation of fission fragment yields of r-process nuclei

Author

Sadhukhan, Jhilam, Giuliani, Samuel A., Matheson, Zachary, and Nazarewicz, Witold

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

$\textbf{Background}$ More than half of all the elements heavier than iron are made by the rapid neutron capture process (or r process). For very neutron-rich astrophysical conditions, such at those found in the tidal ejecta of neutron stars, nuclear fission determines the r-process endpoint, and the fission fragment yields shape the final abundances of $110\le A \le 170$ nuclei. The knowledge of fission fragment yields of hundreds of nuclei inhabiting very neutron-rich regions of the nuclear landscape is thus crucial for the modeling of heavy-element nucleosynthesis. $\textbf{Purpose}$ In this study, we propose a model for the fast calculation of fission fragment yields based on the concept of shell-stabilized prefragments defined with help of the nucleonic localization functions. $\textbf{Methods}$ To generate realistic potential energy surfaces and nucleonic localizations, we apply Skyrme Density Functional Theory. The distribution of the neck nucleons among the two prefragments is obtained by means of a statistical model. $\textbf{Results}$ We benchmark the method by studying the fission yields of $^{178}$Pt, $^{240}$Pu, $^{254}$Cf, and $^{254,256,258}$Fm and show that it satisfactorily explains the experimental data. We then make predictions for $^{254}$Pu and $^{290}$Fm as two representative cases of fissioning nuclei that are expected to significantly contribute during the r-process nucleosynthesis occurring in neutron star mergers. $\textbf{Conclusions}$ The proposed framework provides an efficient alternative to microscopic approaches based on the evolution of the system in a space of collective coordinates all the way to scission. It can be used to carry out global calculations of fission fragment distributions across the r-process region., Comment: 10 pages, 9 figures

Published

2020

2. Cluster radioactivity of $^{294}_{118}$Og$_{176}$

Author

Matheson, Zachary, Giuliani, Samuel A., Nazarewicz, Witold, Sadhukhan, Jhilam, and Schunck, Nicolas

Subjects

Nuclear Theory

Abstract

According to theory, cluster radioactivity becomes an important decay mode in superheavy nuclei. In this work, we predict that the strongly-asymmetric fission, or cluster emission, is in fact the dominant fission channel for $^{294}_{118}$Og$_{176}$, which is currently the heaviest synthetic isotope known. Our theoretical approach incorporates important features of fission dynamics, including quantum tunneling and stochastic dynamics up to scission. We show that, despite appreciable differences in static fission properties such as fission barriers and spontaneous fission lifetimes, the prediction of cluster radioactivity in $^{294}_{118}$Og$_{176}$ is robust with respect to the details of calculations, including the choice of energy density functional, collective inertia, and the strength of the dissipation term., Comment: 6 pages, 3 figures

Published

2018

3. Tectonostratigraphic and petrogenetic setting of late Mississippian volcanism in eastern Canada

Author

Jutras, Pierre, Dostal, Jaroslav, Kamo, Sandra, and Matheson, Zachary

Subjects

Mississippi River -- Natural history, Petrogenesis -- Research, Volcanism -- Natural history, Geological research, Stratigraphy -- Research, Plate tectonics -- Natural history, Earth sciences

Abstract

In the aftermath of the Middle Devonian Acadian Orogeny, a thick mafic body is inferred to have been emplaced at the base of the crust during development of the Maritimes Basin complex in eastern Canada and is believed to have sourced regional Late Devonian to Mississippian volcanism. By late Mississippian times, volcanism was limited to central New Brunswick and the Magdalen Islands of eastern Quebec. Whereas Late Devonian to early Mississippian mafic volcanism was mainly characterized by subalkaline lavas produced by the high-degree partial melting of a subduction-enriched lithospheric mantle source, late Mississippian volcanism was dominated by alkali mafic lavas produced by the low-degree partial melting of a sublithospheric mantle source that shows no evidence of subduction imprint. Two distinct upper Mississippian volcanic successions were identified in central New Brunswick and are estimated to be separated by ~7 million years based on U-Pb dates on felsic intervals. They respectively belong to the Cumberland Hill Formation and a new volcanic member of the Hopewell Cape Formation. As they share close geochemical affinities, we interpret both volcanic units as having been derived from the same primary source but from distinct magmatic pulses. Based on the sedimentology of interbedded clastic units as well as available mapping and geophysical data in New Brunswick, we interpret that the upper Mississippian mafic lavas were issued from large NW-SE striking dykes responding to NW-SE compression in a pull-apart basin, whereas less voluminous and more localised felsic rocks were possibly issued from discrete volcanic pipes. Durant la formation du complexe du bassin des Maritimes dans l'est du Canada, suite à l'orogénèse Acadienne (Dévonien moyen), Il est inféré qu'un épais corps mafique a été mis en place à la base de la croûte et aurait été la source d'un volcanisme régional d'âge Dévonien tardif à Mississippien. Au Mississippien tardif, ce volcanisme ne se limitait plus qu'au centre du Nouveau-Brunswick et aux îles de la Madeleine de l'est du Québec. Si le volcanisme mafique du Dévonien tardif au Mississippien précoce était principalement caractérisé par des laves subalcalines produites par de forts degrés de fusion partielle dans une source du manteau lithosphérique enrichie par la subduction, le volcanisme au Mississippien tardif était dominé par des laves mafiques alcalines produites par de faibles degrés de fusion partielle dans une source du manteau sous la lithosphère qui ne montre aucun signe d'une composante associée à la subduction. Deux séquences volcaniques distinctes du Mississippien supérieur ont été cernées dans le centre du Nouveau-Brunswick, l'intervalle estimé entre leurs emplacements étant de ~7 millions d'années selon les âges U-Pb de couches felsiques intercalées. Elles appartiennent respectivement à la Formation de Cumberland Hill et à un nouveau membre volcanique de la Formation de Hopewell Cape. Comme elles ont des affinités géochimiques semblables, nous en concluons que les deux unités volcaniques sont issues de la même source primaire, mais d'impulsions magmatiques distinctes. Sur la base de la sédimentologie d'unités clastiques interlitées ainsi que des données cartographiques et géophysiques disponibles pour le Nouveau-Brunswick, nous concluons que les laves mafiques du Mississippien supérieur atteint la surface à partir coulé de grands dykes d'orientation NO-SE formés par une compression NO-SE dans un bassin de transtension, alors que les roches felsiques moins volumineuses et plus localisées ont probablement été issues de cheminées volcaniques individuelles. [Traduit par la Rédaction], Introduction Following the Middle Devonian Acadian orogeny, eastern Canada evolved as a complex system of strike-slip basins that hosted widespread and locally abundant Upper Devonian to Tournaisian (lower Mississippian) volcanic [...]

Published

2018