First $^{94}$Nb($n,\gamma$) Measurement: Constraining the Nucleosynthetic Origin of $^{94}$Mo in Presolar Grains

J. Balibrea-Correa; J. Lerendegui-Marco; C. Domingo-Pardo; V. Babiano-Suarez; I. Ladarescu; M. Krtivcka; G. Cescutti; S. Cristallo; D. Vescovi; N. Liu; E. A. Maugeri; U. K\"oster; I. M\\"onch; A. Casanovas; V. Alcayne; D. Cano-Ott; E. Mendoza; O. Aberle; J. Andrzejewski; S. Altieri; S. Amaducci; M. Bacak; C. Beltrami; S. Bennett; A. P. Bernardes; E. Berthoumieux; R. Beyer; M. Boromiza; D. Bosnar; M. Caama\~no; F. Calvi\~no; M. Calviani; D. M. Castelluccio; F. Cerutti; S. Chasapoglou; E. Chiaveri; P. Colombetti; N. Colonna; P. Console Camprini; G. Cort\'es; M. A. Cort\'es-Giraldo; L. Cosentino; S. F. Dellmann; M. Diakaki; M. Di Castro; M. Dietz; S. Di Maria; R. Dressler; E. Dupont; I. Dur\'an; Z. Eleme; S. Fargier; B. Fern\'andez; B. Fern\'andez-Dom\'inguez; P. Finocchiaro; S. Fiore; V. Furman; F. Garc\'ia-Infantes; A. Gawlik-Ramikega; G. Gervino; S. Gilardoni; E. Gonz\'alez-Romero; C. Guerrero; F. Gunsing; C. Gustavino; J. Heyse; W. Hillman; D. G. Jenkins; E. Jericha; A. Junghans; Y. Kadi; K. Kaperoni; G. Kaur; A. Kimura; I. Knapov\'a; M. Kokkoris; Y. Kopatch; N. Kyritsis; C. Lederer-Woods; G. Lerner; A. Manna; T. Mart\'inez; A. Masi; C. Massimi; P. Mastinu; M. Mastromarco; A. Mazzone; A. Mengoni; V. Michalopoulou; P. M. Milazzo; R. Mucciola; F. Murtas; E. Musacchio Gonz\'alez; A. Musumarra; A. Negret; N. Patronis; J. A. Pav\'on; M. G. Pellegriti; P. P\'erez-Maroto; A. P\'erez de Rada Fiol; J. Perkowski; C. Petrone; E. Pirovano; J. Plaza del Olmo; S. Pomp; I. Porras; J. Praena; J. M. Quesada; R. Reifarth; D. Rochman; Y. Romanets; C. Rubbia; A. S\'anchez-Caballero; M. Sabat\'e-Gilarte; P. Schillebeeckx; D. Schumann; A. Sekhar; A. G. Smith; N. V. Sosnin; M. E. Stamati; A. Sturniolo; G. Tagliente; A. Tarife\~noo-Saldivia; D. Tarr\'io; P. Torres-S\'anchez; S. Urlass; E. Vagena; S. Valenta; V. Variale; P. Vaz; G. Vecchio; V. Vlachoudis; R. Vlastou; A. Wallner; P. J. Woods; T. Wright; R. Zarrella; P. Zugec; The n\_TOF Collaboration

arXiv:2603.17646·nucl-ex·March 19, 2026

First $^{94}$Nb($n,\gamma$) Measurement: Constraining the Nucleosynthetic Origin of $^{94}$Mo in Presolar Grains

J. Balibrea-Correa, J. Lerendegui-Marco, C. Domingo-Pardo, V. Babiano-Suarez, I. Ladarescu, M. Krtivcka, G. Cescutti, S. Cristallo, D. Vescovi, N. Liu, E. A. Maugeri, U. K\"oster, I. M\\"onch, A. Casanovas, V. Alcayne, D. Cano-Ott, E. Mendoza, O. Aberle, J. Andrzejewski

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TL;DR

This paper reports the first measurement of the neutron-capture cross section of $^{94}$Nb, resolving a long-standing discrepancy in nucleosynthesis models and clarifying the origin of $^{94}$Mo in presolar grains.

Contribution

It provides the first experimental determination of the $^{94}$Nb(n,$eta$)$^{95}$Nb cross section, improving nucleosynthesis models of $^{94}$Mo production.

Findings

01

Incorporation of the new cross section aligns models with presolar grain data.

02

Resolves a two-decade discrepancy in $^{94}$Mo abundance predictions.

03

Enhances understanding of the $s$-process in stellar nucleosynthesis.

Abstract

Isotopic measurements of presolar silicon carbide grains from dying stars have revealed a puzzling overabundance of $^{94}$ Mo that stellar nucleosynthesis models have failed to reproduce for two decades. This discrepancy challenged our understanding of the slow neutron-capture process ( $s$ -process) that forges approximately half of the elements heavier than iron. The key uncertainty lies at $^{94}$ Nb, a radiactive branching point where competition between neutron capture and beta decay governs the $^{94}$ Mo production, yet the neutron-capture cross section had never been measured. Here we report the first experimental determination of the $^{94}$ Nb(n, $γ$ ) $^{95}$ Nb cross section important for Mo isotopic abundances. The measurement was enabled by a coordinated effort involving high-purity target preparation at Institute of Solid State and Materials Research (IFW) Dresden,…

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Taxonomy

TopicsNuclear physics research studies · Astro and Planetary Science · Astronomical and nuclear sciences