Marco Pignatari — Scifaro

Production of heavy $\alpha$-elements and $^{44}$Ti in Cas A: comparison to abundances from 1D core-collapse supernova models and evidence for Carbon-Oxygen shell mergers

The merger between the carbon (C) and oxygen (O) shells hours to days before the collapse of a massive star significantly changes its nucleosynthesis, which is reflected in the elemental ratios observed in supernova remnants (SNRs). We…

High Energy Astrophysical Phenomena · Physics 2026-05-18 Luca Boccioli , Lorenzo Roberti , Chris L Fryer , Samar Safi-Harb , Samuel Jones , Marco Pignatari

Stellar Interpretation of Meteoritic Data and PLotting for Everyone (SIMPLE): Isotope Mixing Lines for Six Sets of Core-Collapse Supernova Models

Bulk meteorites and their inclusions exhibit, for many chemical elements, isotopic variability produced by nucleosynthetic events in stars and supernovae before the formation of the Sun. While the exact astrophysical origins of these…

Solar and Stellar Astrophysics · Physics 2026-02-05 Marco Pignatari , Mattias Ek , Georgy V. Makhatadze , Gábor G. Bálazs , Lorenzo Roberti , James M. Ball , Borbála Cseh , Alessandro Chieffi , Chris Fryer , Falk Herwig , Chiara Incollingo , Thomas Lawson , Marco Limongi , Thomas Rauscher , Maria Schönbächler , Andre Sieverding , Reto Trappitsch , Maria Lugaro

Strontium-84 Enrichments in Presolar Grains Provide First Evidence of p-process Nucleosynthesis in Core-collapse Supernovae

This study reports detection of rare p-process isotopes within presolar grains. Presolar grains are relic dust grains from dying stars. These microscopic dust particles are found in primitive solar system materials. Their distinct isotopic…

Solar and Stellar Astrophysics · Physics 2026-01-30 Ishita Pal , Manavi Jadhav , Danielle Z. Shulaker , Michael R. Savina , Marco Pignatari , Lorenzo Roberti , Heather Bouillion , Maria Lugaro , Christopher J. Dory , Frank Gyngard , Noriko Kita , Sachiko Amari

The NuGrid AGB Evolution and Nucleosynthesis Data Set

Asymptotic Giant Branch (AGB) stars play a key role in the chemical evolution of galaxies. These stars are the fundamental stellar site for the production of light elements such as C, N and F, and half of the elements heavier than Fe via…

Solar and Stellar Astrophysics · Physics 2026-01-12 Umberto Battino , Marco Pignatari , Ashley Tattersall , Pavel Denissenkov , Falk Herwig

Impact of newly measured 26Al(n, p)26Mg and 26Al(n, {\alpha})23Na reaction rates on the nucleosynthesis of 26Al in stars

The cosmic production of the short-lived radioactive nuclide 26Al is crucial for our understanding of the evolution of stars and galaxies. However, simulations of the stellar sites producing 26Al are still weakened by significant nuclear…

Solar and Stellar Astrophysics · Physics 2026-01-12 Umberto Battino , Claudia Lederer-Woods , Marco Pignatari , Benjamin Soos , Maria Lugaro , Diego Vescovi , Sergio Cristallo , Philip J Woods , Amanda Karakas

3D Macro Physics and Light Odd-Z Element Production in O-C Shell Mergers: Implications for $^{40}\mathrm{K}$ production and radiogenic heating inventories of rocky exoplanets

The light odd-Z elements P, Cl, K, and Sc are underproduced in galactic chemical evolution models compared to spectroscopic observations of stars in the Milky Way. The most promising solution to this puzzle is that some massive stars…

Solar and Stellar Astrophysics · Physics 2025-12-24 Joshua Issa , Falk Herwig , Stephen J. Mojzsis , Marco Pignatari

Impact of 3D macro physics and nuclear physics on the p nuclei in O-C shell mergers

O-C shell mergers in massive stars are a site for producing the p nuclei by the $\gamma$ process, but 1D stellar models rely on mixing length theory, which does not match the radial velocity profiles of 3D hydrodynamic simulations. We…

Solar and Stellar Astrophysics · Physics 2025-12-24 Joshua Issa , Falk Herwig , Pavel Denissenkov , Marco Pignatari

Impact of the latest 22Ne+{\alpha} reaction rates on nucleosynthesis in massive stars and galactic chemical evolution

In massive stars (initial mass of > 9 solar masses), the weak s (slow neutron capture) process produces elements between Fe and Zr, enriching the Galaxy with these elements through core-collapse supernova explosions. The weak s-process…

Solar and Stellar Astrophysics · Physics 2025-12-01 Emma Kotar , Shuya Ota , Allyson Dewey , Joshua Millman , Lorenzo Roberti , Marco Pignatari

Molybdenum and ruthenium in the Galactic disk: A closer look at their nucleosynthesis components

The stellar origin of the elements molybdenum (Mo, Z=42) and ruthenium (Ru, Z=44) is still a matter of debate. Studying their abundances provides valuable insights into nucleosynthesis processes and the broader evolution of neutron-capture…

Astrophysics of Galaxies · Physics 2025-11-27 Tamara Mishenina , Teresa Kurtukian-Nieto , Tatiana Gorbaneva , Anish M. Amarsi , Athanasios Psaltis , Marco Pignatari

The s Process and Beyond

Neutron captures produce the vast majority of abundances of elements heavier than iron in the Universe. Beyond the classical slow (s) and rapid (r) processes, there is observational evidence for neutron-capture processes that operate at…

Solar and Stellar Astrophysics · Physics 2025-11-11 Maria Lugaro , Marco Pignatari , René Reifarth , Michael Wischer

The s process in massive stars, a benchmark for neutron capture reaction rates

A clear definition of the contribution from the slow neutron-capture process (s process) to the solar abundances between Fe and the Sr-Zr region is a crucial challenge for nuclear astrophysics. Robust s-process predictions are necessary to…

Solar and Stellar Astrophysics · Physics 2025-10-22 Marco Pignatari , Roberto Gallino , Rene Reifarth

SHADES -- $^{22}$Ne($\alpha$,n)$^{25}$Mg reaction rate in the Gamow window

Neutron capture reactions are the main contributors to the synthesis of the heavy elements through the s-process. Together with $^{13}$C($\alpha$,n)16O, which has recently been measured by the LUNA collaboration in an energy region inside…

Instrumentation and Detectors · Physics 2025-10-09 David Rapagnani , Chemseddine Ananna , Antonino Di Leva , Gianluca Imbriani , Matthias Junker , Marco Pignatari , Andreas Best

Galactic chemical evolution of short-lived radioactive isotopes produced by explosive nucleosynthesis: $^{60}$Fe and $^{53}$Mn

Several short-lived radionuclides (SLRs) are know to have existed in the early Solar System (ESS). These species, which typically decay with half-lives of the order of a few million years, can be used to probe the timescale of events…

Solar and Stellar Astrophysics · Physics 2025-09-26 Thomas C. L. Truemam , Andrés Yagüe López , Maria Lugaro , Marco Pignatari

Investigating Phosphorus Abundances in a Sample of APOGEE-2 Bulge Globular Clusters

Phosphorus enhanced (P-rich; [P/Fe] > 0.8) giants have been found among mildly metal-poor fiels stars, but in only one star in a globular cluster (GC), M4 (NGC 6121). Also, in a sample of bulge spheroid stars, some of them showed a moderate…

Solar and Stellar Astrophysics · Physics 2025-09-16 Beatriz Barbuy , José G. Fernández-Trincado , Morgan S. Camargo , Doug Geisler , Maren Brauner , Sandro Villanova , Dante Minniti , Domingo Anibal García-Hernández , Stefano O. Souza , Heitor Ernandes , Amâncio Friaça , Marco Pignatari

Reconstructing the Milky Way chemical map with Galactic Chemical Evolution tool OMEGA+ from SDSS-MWM

We obtain two-infall galactic chemical evolution (GCE) models simulating the chemical evolution of the Milky Way as constrained by a golden sample of $394,000$ stellar abundances of the Milky Way Mapper survey from the 19th data release of…

Astrophysics of Galaxies · Physics 2025-07-16 Viola Hegedűs , Szabolcs Mészáros , Blanka Világos , Marco Pignatari , J. Emily Griffith , Diogo Souto , Maria Lugaro

Modelling Triatomic Biosignatures: Ozone and Isotopomers

In this work we present a new approach to produce spectroscopic constants and model first-principles synthetic spectra for all molecules of astrophysical interest. We have generalized our previous diatomic molecule simulation framework,…

Chemical Physics · Physics 2025-03-21 Thomas M. Cross , David M. Benoit , Marco Pignatari , Brad K. Gibson

Chemical abundance inventory in phosphorus-rich stars

We provide an overview of the latest advances in the study of phosphorus-rich stars, covering their detailed chemical abundance analyses and innovative mining approaches. Following the discovery of 16 low-mass and low-metallicity stars rich…

Solar and Stellar Astrophysics · Physics 2025-03-06 Maren Brauner , Thomas Masseron , Marco Pignatari , D. Aníbal García-Hernández

Silicon Isotopic Composition of Mainstream Presolar SiC Grains Revisited: The Impact of Nuclear Reaction Rate Uncertainties

Presolar grains are stardust particles that condensed in the ejecta or in the outflows of dying stars and can today be extracted from meteorites. They recorded the nucleosynthetic fingerprint of their parent stars and thus serve as valuable…

Solar and Stellar Astrophysics · Physics 2024-12-02 Hung Kwan Fok , Marco Pignatari , Benoît Côté , Reto Trappitsch

Unveiling the chemical fingerprint of phosphorus-rich stars II. Heavy-element abundances from UVES/VLT spectra

The atmospheres of phosphorus-rich stars have been shown to contain between 10 and 100 times more P than our Sun. Given its crucial role as an essential element for life, it is especially necessary to uncover the origin of P-rich stars to…

Solar and Stellar Astrophysics · Physics 2024-08-26 Maren Brauner , Marco Pignatari , Thomas Masseron , D. A. García-Hernández , Maria Lugaro

The $\gamma$-process nucleosynthesis in core-collapse supernovae II. Effect of the explosive recipe

The $\gamma$-process in core-collapse supernovae (CCSNe) can produce a number of neutron-deficient stable isotopes heavier than iron (p-nuclei). However, current model predictions do to not fully reproduce the solar abundances. We…

Solar and Stellar Astrophysics · Physics 2024-06-05 Lorenzo Roberti , Marco Pignatari , Chris L. Fryer , Maria Lugaro