NEFERTITI-ERC

The goal of NEFERTITI (NEar-FiEld cosmology Re-Tracing Invisible TImes) is to make a major step forward in our understanding of the first stars and galaxies by catching the stellar fossils from the early Universe in our Galactic neighborhood. To this end we are exploiting a novel approach which integrates theory and observations in a unique way.

NEFERTITI’s publications (may 2019 – now):

1. Probing the existence of very massive first stars, Salvadori, Bonifacio, Caffau, Korotin, Andreevsky, Spite, and Skuladottir, 2019, MNRAS
2. Neutron-capture elements in dwarf galaxies. I. Chemical clocks and the short timescale of the r-process, Skuladottir, Hansen, Salvadori, and Choplin. 2019, A&A
3. Neutron-capture elements in dwarf galaxies. II. Challenges for the s- and i-processes at low metallicity, Skuladottir, Hansen, Choplin, Salvadori, Hampel, Campbell. 2019, A&A
4. Evidence for ≳4 Gyr timescales of neutron star mergers from Galactic archaeology, Skuladottir & Salvadori 2019, A&A Letter
5. The stellar populations of high-redshift dwarf galaxies, Gelli, Salvadori, Pallottini, and Ferrara 2020, MNRAS
6. Faint LAEs near z > 4.7 CIV absorbers revealed by MUSE, Diaz, Weber, Wouter, Caputi, Salvadori, Crighton, Ouchi, Vanzella, 2021, MNRAS
7. Ultra-faint dwarf galaxies: unveiling the minimum mass of the first stars, Rossi, Salvadori Skuladottir, 2021, MNRAS
8. The Star Formation History of Eridanus II: On the Role of Supernova Feedback in the Quenching of Ultra-faint Dwarf Galaxies, Gallart et al. (including Salvadori) 2021, ApJ
9. Dwarf satellites of high-z Lyman Break Galaxies: a free lunch for JWST, Gelli, Salvadori, Ferrara, Pallottini, Carniani, 2021, ApJ Letter
10. Topos IV: the metal-weak tail of the metallicity distribution functions of the Milky Way and of the Gaia-Sausage-Enceladus structure, Bonifacio, Monaco, Salvadori et al. 2021, A&A
11. Zero-metallicity hypernova uncovered by an ultra-metal-poor star in the Sculptor dwarf spheroidal galaxy, Skuladottir, Salvadori, Amarsi et al. 2021, ApJ Letter
12. The Pristine survey – XIX. Cu and Zn abundances in metal-poor giants, Caffau et al. including Aguado and Salvadori, 2022, MNRAS
13. First stars signatures in high-z absorbers, Salvadori, D’Odorico, Saccardi, Skuladottir, Vanni, 2023 MemSaiT
14. Are all metal-poor stars of second-generation? Vanni, Salvadori, Skuladottir, 2023 MemSaiT
15. The pristine nature of SMSS 1605-1443 revealed by ESPRESSO, Aguado et al. including Salvadori 2023, A&A Letter, 669, L4
16. PISN-explorer: hunting the descendants of very massive first stars, Aguado, Salvadori, Skuladottir, Caffau, Bonifacio, Vanni, Gelli, Koutsouridou, Amarsi 2023, MNRAS, 520, 866
17. Understanding the origin of CEMP-no stars through ultra-faint dwarfs, Rossi, Salvadori Skuladottir, Vanni, 2023, MNRAS
18. Quiescent low-mass galaxies observed by JWST in the Epoch of Reionization, Gelli, Salvadori, Ferrara, Pallottini, Carniani, 2023, ApJ
19. On the dearth of C-enhanced metal-poor stars in the Galactic bulge, Pagnini, Salvadori, Rossi, Aguado, Koutsouridou, Skuladottir, 2023, MNRAS
20. Evidence of first stars enriched gas in high-redshift absorbers, Saccardi, Salvadori, D’Odorico et al. 2023, ApJ
21. Tracing Pop III supernovae with extreme energies through the Sculptor dwarf spheroidal galaxy, Skuladottir, Vanni, Salvadori, Lucchesi 2023, A&A
22. The energy distribution of the first supernovae Koutsouridou, Salvadori, Skuladottir, Rossi, Vanni, Pagnini, 2023, MNRAS
23. Characterising the true descendants of the first stars Vanni, Salvadori, Skuladottir, Rossi, Koutsouridou,2023, MNRAS in press