Publications
[18] "Fuzzy dark matter dynamical friction: Defying galactic cannibalism of globular clusters" A. Szpilfidel,
P. Boldrini, J. Bovy and P. Di Matteo, submitted to A&A (2025)
[17] "In-situ globular clusters in fuzzy dark matter Milky Way galaxies: a first approach"
P. Boldrini, P. Di Matteo et al., submitted to A&A (2025)
[16] "A new classification of ex-situ and in-situ Galactic globular clusters based on a method trained on Milky Way analogues in the TNG50 cosmological simulations"
P. Boldrini, P. Di Matteo, C. Laporte, O. Agertz, S. Khoperskov and G. Pagnini, submitted to A&A (2025)
[15] "Euclid Quick Data Release (Q1). The role of cosmic connectivity in shaping galaxy clusters" Euclid Collaboration: C. Gouin, C. Laigle, F. Sarron, T. Bonnaire, J. G. Sorce, N. Aghanim, M. Magliocchetti, L. Quilley, P. Boldrini et al., A&A Special Issue 'Euclid Quick Data Release (Q1) (2025)
[14] "Distinguish dark matter theories with the cosmic web and next-generation surveys I: an alternative theory of gravity"
P. Boldrini and C. Laigle, A&A 700, A182 (2025)
[13] "Euclid preparation. Detecting globular clusters in the Euclid survey" Euclid Collaboration: K. Voggel, A. Lançon, T. Saifollahi, S. Larsen, M. Cantiello, M. Rejkuba, J. C. Cuillandre, P. Hudelot, A. Nucita, M. Urbano, E. Romelli, M. A. Raj, M. Schirmer, C. Tortora, Abdurro’uf, F. Annibali , M. Baes, P. Boldrini et al., A&A 693, A251 (2025)
[12] "Euclid. I. Overview of the Euclid mission" Euclid Collaboration et al., A&A 697, A1 (2025)
[11] "Off-centre black holes in galaxy clusters" Aline Chu, P. Boldrini, and J. Silk, MNRAS, 522, 948 (2023)
[10]"Properties of globular clusters formed in dark matter mini-halos" E. Vitral and P. Boldrini, A&A 667, A112 (2022)
[9]"No globular cluster progenitors in Milky Way satellite galaxies" P. Boldrini and J. Bovy, MNRAS, 516, 4560 (2022)
[8]"The cusp-core problem in gas-poor dwarf spheroidal galaxies" P. Boldrini, Galaxies, 10, 5 (2021),
Special issue on "Challenges in Our Understanding of Dwarf Galaxies"
[7]"Absence of obvious tidal tails around the globular cluster NGC 6397" P. Boldrini and E. Vitral, MNRAS, 507, 1814 (2021)
[6]"Flattening of dark matter cusps during mergers: model of M31" P. Boldrini, R. Mohayaee, J. Silk, ApJ, 919, 86 (2021)
[5]"The origin of the black hole offset in M31" P. Boldrini, MNRAS Letters, L137B (2020)
[4]"Subhalo sinking and off-center IMBHs in dwarf galaxies" P. Boldrini, R. Mohayaee, J. Silk, MNRAS Letters, 495, L12, (2020)
[3]"Embedding globular clusters in dark matter minihalos solves the cusp-core and timing problems in the Fornax dwarf galaxy"
P. Boldrini, R. Mohayaee, J. Silk, MNRAS, 492, 3169 (2020)
[2]"Primordial black holes as dark matter: cusp-to-core transition in low-mass dwarf galaxies" P. Boldrini, Y. Miki, A. Y. Wagner, R. Mohayaee, J. Silk and A. Arbey MNRAS, 492, 5218 (2020)
[1]"Fornax globular cluster distributions: implications for the cusp-core problem" P. Boldrini, R. Mohayaee, J. Silk, MNRAS, 485, 2546, (2019)
[0]"Does Fornax have a cored halo? Implications for the nature of dark matter" P. Boldrini, R. Mohayaee, J. Silk, not published