Published: Thursday, 12 November 2020 11:27 | Print | Email

TAsP

Theoretical Astroparticle Physics

 

HOME RESEARCH TEAM PUBLICATIONS NEWS

 

List of the most significant publications of the last five years of each Research Unit related to the proposal:

 

·       INFN Section of Bari (BA)

1.     F. Capozzi, E. Lisi, A. Marrone and A. Palazzo, 

"Current unknowns in the three neutrino framework,'' 

Prog. Part. Nucl. Phys. 102 (2018) 48 

2.     G. Fanizza, M. Gasperini, G. Marozzi, and G. Veneziano,
"Generalized covariant prescriptions for averaging cosmological observables,"
JCAP 02 (2020) 017

3.     F. Capozzi, S.S. Chatterjee and A. Palazzo,
"Neutrino mass ordering obscured by non-standard interactions,"
Phys. Rev. Lett. 124  (2020) 111801 

4.     F. Forastieri, M. Lattanzi, G. Mangano, A. Mirizzi, P. Natoli and N. Saviano,

"CMB constraints on secret interactions among sterile neutrinos," 

JCAP 07 (2017) 038

5.     P. Carenza, T. Fischer, M. Giannotti, G. Guo, G. Martínez-Pinedo and A. Mirizzi,
"Improved axion emissivity from a supernova via nucleon-nucleon bremsstrahlung,"
JCAP 10 (2019) 016

      INFN Section of Bologna (BO)    

  1. Alessandro Granelli, Christopher Leslie, Yuber F. Perez-Gonzalez, Holger Schulz, Brian Shuve, Jessica Turner, Rosie Walker
    "ULYSSES, Universal LeptogeneSiS Equation Solver: version 2"    arXiv:2301.05722 [hep-ph]
  2. Martina Mongillo, Asli Abdullahi, Benjamin Banto Oberhauser, Paolo Crivelli, Matheus Hostert, Daniele Massaro, Laura Molina Bueno, Silvia Pascoli
    "Constraining Light Thermal Inelastic Dark Matter with NA64"
    arXiv:2302.05414 [hep-ph]
  3. Asli M. Abdullahi, Matheus Hostert, Daniele Massaro, Silvia Pascoli
    "Semi-Visible Dark Photons below the Electroweak Scale"
    arXiv: 2302.05410 [hep-ph]
  4. Bowen Fu, Stephen F. King, Luca Marsili, Silvia Pascoli, Jessica Turner, Ye-Ling Zhou
    "A predictive and testable unified theory of fermion masses, mixing and leptogenesis"
    JHEP 11 (2022) 072, arXiv:2209.00021 [hep-ph]
  5. Willem Elbers, Carlos S. Frenk, Adrian Jenkins, Baojiu Li, Silvia Pascoli
    "Higher order initial conditions with massive neutrinos"
    Mon.Not.Roy.Astron.Soc. 516 (2022) 3, 3821-3836, arXiv:2202.00670 [astro-ph.CO] 

 

·       INFN Section of Ferrara (FE)

6.    P. Agnes et al.  (DarkSide-50 Collaboration)

“Effective Field Theory interactions for liquid argon target in DarkSide-50 experiment”

Phys. Rev. D 101 (2020) 062002

7.    M. Agostini et al. (Borexino Collaboration)

Comprehensive geoneutrino analysis with Borexino”

Phys Rev. D 101 (2020) 012009

8.    I. Masina

Ruling out Critical Higgs Inflation?”

 Phys. Rev. D 98 (2018) 043536 

9.    A. Fengpeng et al. 

“Neutrino Physics in JUNO”

J. Phys. G: Nucl. Part. Phys 43 (2016) 030401

10. G. Iacobellis and I. Masina

Stationary configurations of the Standard Model Higgs potential: electroweak stability and rising inflection point”

Phys. Rev. D 94 (2016) 073005

 

·       INFN Section of Lecce (LE)

11. V.G. Gurzadyan, F. De Paolis, A. Nucita, A.L. Kashin et al. 

“Messier 81’s Planck view versus its halo mapping”

Astron. & Astrophys. 609 (2018) A131

12. A. Nucita, D. Licchelli, F. De Paolis, G. Ingrosso, F. Strafella et al.

“Discovery of a bright microlensing event with planetary features towards the  Taurus region: a super-Earth planet”

 MNRAS 476 (2018) 2926 

13. A. Nucita, L. Manni, F. De Paolis, M. Giordano, G. Ingrosso

“A catalog sample of low-mass galaxies observed in X-rays with central candidate black holes”

Astrophys. J. 837 (2017) 66 

14. D. Montanino, F. Vazza, A. Mirizzi, M. Viel

“Enhancing the spectral hardening of cosmic TeV photons by mixing with axion-like particles in the magnetized cosmic web”

Phys. Rev. Lett. 119 (2017) 101101

 

·       INFN Section of Section Laboratori Nazionali di Frascati (LNF)

15.  L. Di Luzio, M. Giannotti, E. Nardi, L. Visinelli

“The Landscape of QCD axion models”

Invited review article for Physics Reports, to appear (eprint:2003.01100)

16. F. Björkertoh, L. Di Luzio, F. Mescia, E. Nardi

“Covert symmetries in the neutrino mass matrix”

JHEP 02 (2020) 066 

17. F. Björkertoh, L. Di Luzio, F. Mescia, E. Nardi, P. Panci, R. Ziegler

“Axion-electron decoupling in nucleophobic axion models”

Phys. Rev. D101 (2020) 035027

18. F. Björkertoh, L. Di Luzio, F. Mescia, E. Nardi

“U(1) flavour symmetries as Peccei-Quinn symmetries”

JHEP 02 (2019) 133 

19. E. Nardi, C.D.R. Carvajal, A. Ghoshal, D. Meloni, M. Raggi

“Resonant production of Dark Photons in Positrons Bean Dump Experiments”

 Phys. Rev. D98 (2018) 015031 

 

l  INFN Section of Laboratori Nazionali del Gran Sasso (LNGS)     

 20.  N. Vinyoles et al. 

       "A new Generation of Standard Solar Models"

  Astrophys. J. 835 (2017) 202 

21.  C. Evoli et al., 

 "Origin of the Cosmic Ray Galactic Halo Driven by Advected Turbulence and     Self-Generated Waves"

 Phys. Rev. Lett. 121 (2018) 021102 

22.  M. D'Angelo, G. Morlino, E. Amato, P. Blasi 

"Diffuse gamma-ray emission from self-confined cosmic rays around Galactic     sources"

 MNRAS 474 (2018) 2, 1944

23. S. Celli, A. Palladino, F. Vissani 

"Neutrinos and gamma-rays from the Galactic Center Region after H.E.S.S. multi-TeV measurements", 

Eur.Phys.J.C 77 (2017) 2, 66

24. M.Agostini et al.

"Comprehensive measurement of pp-chain solar neutrinos", 

Nature 562 (2018) 7728, 505

 

·       INFN Section of Napoli (NA) 

25. M. Betti et al. (PTOLEMY Collabortion)

“Neutrino physics with the PTOLEMY project: active neutrino properties and the     light sterile case'' 

JCAP 07(2019) 047

26. R. Consiglio, P. de Salas, G. Mangano, G. Miele, S. Pastor and O. Pisanti

PArthENoPE reloaded”

Comput. Phys. Commun. 233 (2018) 237

27. M. Chianese, G. Miele and S. Morisi

DM interpretation of low energy IceCube MESE excess”

JCAP 01 (2017) 007

28. F. Buccella, M. Chianese, G. Mangano, G. Miele, S. Morisi and P. Santorelli

A neutrino mass-mixing sum rule from SO(10) and neutrinoless double beta decay”          JHEP 04 (2017) 004

29. M. Benito, N. Bernal, N. Bozorgnia, F. Calore and F. Iocco

Particle DM Constraints: the Effect of Galactic Uncertainties”

JCAP 02 (2017) 007

 

·       INFN Section of Padova (PD)

30. F. Capozzi, C. Giunti, M. Laveder, A. Palazzo  

Joint short- and long-baseline constraints on light sterile neutrinos

 Phys. Rev. D 95 (2017) 033006

31. N. Fornengo, A. Masiero, F. S. Queiroz, C. E. Yaguna                    

“On the Role of Neutrinos Telescopes in the Search for DM Annihilations in the Sun” JCAP 12 (2017) 012

32. F. D'Eramo, R. Z. Ferreira, A. Notari, J. L. Bernal 

 “Hot Axions and the H0 tension”

 JCAP 11 (2018) 014

33. V. Domcke, J. Garcia-Bellido, M. Peloso, et al.

 “Measuring the net circular polarization of the stochastic gravitational wave background with interferometers”

  JCAP 05 (2020) 028

34. C. Cornella, P. Paradisi, O. Sumensari

  “Hunting for ALPs with Lepton Flavor Violation”

  JHEP 01 (2020) 158

 

·      

 

·       INFN Section of Pisa (PI)

40. T. Ruiz-Lara, C. Gallart, J. E. Bernard, S. Cassisi

“The recurrent impact of the Sagittarius dwarf on the Milky Way star formation history”

Nature Astronomy 4 (2020) 965

41. B. C. Whitmore et at. 

“LEGUS and Hα-LEGUS Observations of Star Clusters in NGC 4449: Improved   Ages and the Fraction of Light in Clusters as a Function of Age”

Astrophys. J. 889 (2020) 154   

42. G. Fanizza, M. Gasperini, G. Marozzi, G. Veneziano

“Generalized covariant prescriptions for averaging cosmological observables”

JCAP 02 (2020) 017

43. O. Fornieri, D. Gaggero, D. Grasso 

“Features in cosmic-ray lepton data unveil the properties of nearby cosmic accelerators”

JCAP 02 (2020) 009 

44. G. Valle, M. Dell’Omodarme, P.G. Prada Moroni, S. Degl’Innocenti 

“Relevance of the small frequency separation for asteroseismic stellar age, mass, and radius. A statistical investigation for main-sequence low-mass stars”
Astronomy & Astrophysics 635 (2020) A77

 

·       INFN Section of Roma 1 (RM1)

45.  E. Di Valentino, A. Melchiorri, J. Silk

 “Planck evidence for a closed Universe and a possible crisis for cosmology”

 Nature Astronomy 4 (2019) 2, 196

46. E. Di Valentino, A. Melchiorri, O. Mena, S. Vagnozzi

 “Nonminimal dark sector physics and cosmological tensions”

 Phys. Rev. D 101 (2020) 063502

47. F. Renzi, M. Shokri, A. Melchiorri

What is the amplitude of the gravitational waves background expected in the   Starobinski model?”

 Phys. Dark Univ. 27 (2020) 100450

48. E. Di Valentino, A. Melchiorri, J. Silk 

“Cosmological constraints in extended parameter space from the Planck 2018 Legacy release”  

JCAP 01 (2020) 013

49. W. Giarè, E. Di Valentino, A. Melchiorri 

“Testing the inflationary slow-roll condition with tensor modes” 

Phys. Rev. D 99 (2019) 123522

 

·       INFN Section of Torino (TO)

50. S. Ammazzalorso, D. Gruen, M. Regis, A. Ando, N. Fornengo et al.

 “Detection of cross-correlation between gravitational lensing and gamma rays” 

Phys. Rev. Lett. 124 (2020) 101102

51. S. Gariazzo, C. Giunti, M. Laveder, Y.F. Li

"Updated Global 3+1 Analysis of Short-BaseLine Neutrino Oscillations" 

JHEP 06 (2017) 135

52. A. Caputo, M. Regis, M. Taoso, S.J. Witte 

"Detecting the Stimulated Decay of Axions at Radio Frequencies"

JCAP 03 (2019) 027

53. M. Di Mauro, S. Manconi, F. Donato 

Detection of a γ-ray halo around Geminga with the Fermi-LAT and implications  for the positron flux”

Phys. Rev. D 100 (2019) 123015 

54. M. Korsmeier, F. Donato. M. Di Mauro 

Production cross sections of cosmic antiprotons in the light of new data from the NA61 and LHCb experiments

Phys. Rev. D 97 (2018) 103019

 

·       INFN Section of Trieste (TS)

55.  M. Petac, P. Ullio. 
“Two-integral distribution functions in axisymmetric galaxies: implications for DM searches”, 
Phys. Rev. D 99 (2019) 043003

56.  M.Petac, P.Ullio and M.Valli 

"On velocity-dependent DM annihilations in dwarf satellites”

 JCAP 1812 (2018) 039

57.  T.Bringmann, J.Edsjo, P.Gondolo, P.Ullio and L.Bergstrom

”DarkSUSY 6: An Advanced Tool to Compute DM Properites  Numerically”

 JCAP  1807 (2018) 033

58.  J.T. Penedo, S.T. Petcov  

"Lepton Masses and Mixing from Modular S4 Symmetry" 

Nucl.Phys. B939 (2019) 292 

59.   I. Brivio, K. Moffat, S. Pascoli, S.T. Petcov, J. Turner

"Leptogenesis in the Neutrino Option"

JHEP 1910 (2019) 059 

 

 

Published: Thursday, 12 November 2020 11:27 | Print | Email

TEONGRAV

Theory of Gravitational Wave Sources

 

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Abstract

TEONGRAV works on the modelling of gravitational wave sources, such as neutron stars and black holes. These models will be used to interpret current and future observations by gravitational wave detectors (e.g., Virgo, ET, and LISA) in order to better understand the properties of compact objects and to test general relativity and alternative models of gravity. TEONGRAV assembles the largest Italian collaboration of theoretical physicists and astrophysicists working in this field.

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Published: Thursday, 12 November 2020 11:27 | Print | Email

TEONGRAV

Theory of Gravitational Wave Sources

 

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National Coordinator:  Bruno Giacomazzo (Milano Bicocca)

Cagliari (Leonardo Modesto)

  • Staff: Leonardo Modesto
  • Postdocs:
  • Phd Students: Mirko Pitzalis

Firenze (Luca Del Zanna)

  • Staff: Niccolò Bucciantini, Luca Del Zanna
  • Postdocs: Giancarlo Mattia
  • PhD Students:

GSSI (Andrea Maselli)

  • Staff: Andrea Maselli, Riccardo Murgia, Gor Oganesyan
  • Postdocs: Biswajit Banerjee
  • PhD Students: Nandini Hazra, Eleonora Loffredo, Alessio Mei

Milano-Bicocca (Bruno Giacomazzo)

  • Staff: Matteo Bonetti, Monica Colpi, Massimo Dotti, Davide Gerosa, Bruno Giacomazzo, Francesco Haardt, Alessandro Lupi, Om Sharan Salafia, Alberto Sesana
  • Postdocs: Aurelien Chalumeau, Ssohrab Borhanian, Elisa Bortolas, Riccardo Buscicchio, Philippa Cole, Nicholas Loutrel, Michele Mancarella, Costantino Pacilio, Arianna Renzini
  • PhD Students: Fabiola Cocchiararo, Alberto Colombo, Viola De Renzis, Giulia Fumagalli, Federico Pozzoli, Alice Spadaro

Napoli (Mariafelicia De Laurentis)

  • Staff: Mariafelicia De Laurentis, Maurizio Paolillo, Daniele Vernieri
  • Postdocs: Vittorio De Falco
  • PhD Students: 

Padova (Riccardo Ciolfi)

  • Staff: Riccardo Ciolfi, Giuliano Iorio, Michela Mapelli
  • Postdocs: Marco Dall’Amico, Gaston Escobar, Elena Lacchin, Matteo Pais, Andrea Pavan, Carole Périgois, Sara Rastello
  • PhD Students: Erika Korb, Cecilia Sgalletta

Pisa (Leonardo Gualtieri)

  • Staff: Marco Crisostomi, Walter Del Pozzo, Leonardo Gualtieri, Angelo Ricciardone
  • Postdocs: 
  • PhD Students: Matteo Della Rocca

Roma1 (Paolo Pani)

  • Staff: Paolo Pani, Fabio Riccioni, Alfredo Urbano, Raffaella Schneider, Rosa Violante
  • Postdocs: Robin Croft, Kyriakos Destounis, Alexandru Dima, Ilia Musco
  • PhD Students: Fabrizio Corelli, Loris Del Grosso, Antonio Junior Iovino, Claudio Gambino, Marco Melis

TIFPA (Albino Perego)

  • Staff: Albino Perego
  • Postdocs:
  • PhD Students: Leonardo Chiesa

Torino (Alessandro Nagar)

  • Staff: Alessandro Nagar
  • Postdocs: Matteo Bugli, Piero Rettegno
  • PhD Students: 

Trieste (Enrico Barausse)

  • Staff: Enrico Barausse, Ugo Niccolò di Carlo, Mario Spera
  • Postdocs: Ramiro Cayuso, Marcelo Rubio, Jam Sadiq
  • PhD Students: Lodovico Capuano

 

 
 
 
 
 
 
 
 
Published: Thursday, 12 November 2020 11:27 | Print | Email

TEONGRAV

Theory of Gravitational Wave Sources

 

HOME RESEARCH TEAM PUBLICATIONS NEWS

  

Scientific activities of the various Research Units

 
 TEONGRAV mainly focuses its work on these topics:
  1. Modelling of gravitational wave sources via both analytic and numerical methods (Firenze, GSSI, Milano-Bicocca, Padova, Pisa, Roma1, TIFPA, Torino, Trieste);
  2. Use of theoretical models and observations to extract information on the equation of state of matter in the inner core of neutron stars (Firenze, GSSI, Milano-Bicocca, Padova, Pisa, Roma1, Torino, TIFPA);
  3. Study of the dynamics of black hole formation (Milano-Bicocca, Padova, Roma1);
  4. Study of electromagnetic counterparts of gravitational wave signals (Firenze, GSSI, Milano-Bicocca, Napoli, Padova, TIFPA);
  5. Study of strong-field phenomena in modified gravity theories, in order to test general relativity and the nature of compact objects with gravitational waves and astrophysical observations (Cagliari, Firenze, GSSI, Milano-Bicocca, Napoli, Pisa, Roma1, Torino, Trieste).
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Published: Thursday, 12 November 2020 11:27 | Print | Email

TEONGRAV

Theory of Gravitational Wave Sources

 

HOME RESEARCH TEAM PUBLICATIONS NEWS

 

SELECTED PUBLICATIONS

 List of the most significant publications of the last five years:

2023

  • Ballone A., Costa G., Mapelli M., MacLeod M., Torniamenti S., Pacheco-Arias J. M., Formation of black holes in the pair-instability mass gap: hydrodynamical simulations of a head-on massive star collision, MNRAS, 519, 5191 (2023)
  • Cadoni M., De Laurentis M., De Martino I., Della Monica R., Are nonsingular black holes with super-Planckian hair ruled out by S2 star data?, Phys.Rev.D 107, 044038 (2023)
  • Corelli F., De Amicis M., Ikeda T., Pani P., What is the fate of Hawking evaporation in gravity theories with higher curvature terms?, Phys.Rev.Lett. 130, 091501 (2023)
  • Damour T., Rettegno P., Strong-field scattering of two black holes: Numerical Relativity meets post-Minkowskian gravity, Phys. Rev. D 107, 064051 (2023)
  • Gamba R., Breschi M., Carullo G., Albanesi S., Rettegno P., Bernuzzi S., Nagar A., GW190521 as a dynamical capture of two nonspinning black holes, Nature Astronom. 7, 11-17 (2023)
  • Jain T., Rettegno P., Agathos M., Nagar A., Turco L., Effective-one-body Hamiltonian in scalar-tensor gravity at third post-Newtonian order, Phys. Rev. D 107, 084017 (2023)
  • Jiménez Forteza X., Bhagwat S., Kumar S., Pani P., A novel ringdown amplitude-phase consistency test; Phys.Rev.Lett. 130, 021001 (2023)
  • Loffredo E., Perego A., Logoteta D., Branchesi M., Muons in the aftermath of neutron star mergers and their impact on trapped neutrinos, Astron. Astrophys. 672, A124 (2023)
  • Oganesyan G., Karpov S., Salafia O. S., et al. Exceptionally bright optical emission from a rare and distant gamma-ray burst, Nature Astron. (2023)

2022

  • Albertini A., Nagar A., Pound A., Warburtin N., Wardell B., Durkan L., Miller J., Comparing second-order gravitational self-force and effective one body waveforms from inspiralling, quasicircular and nonspinning black hole binaries. II. The large mass-ratio case, Phys. Rev. D 106, 8 (2022)
  • Bezares M., Aguilera-Miret R., ter Haar L., Crisostomi M., Palenzuela C., Barausse E., No Evidence of Kinetic Screening in Simulations of Merging Binary Neutron Stars beyond General Relativity, Phys. Rev. Lett. 128, 091103 (2022)
  • Camilletti A., Chiesa L., Ricigliano G., Perego A., Lippold L.C., Padamata S., Bernuzzi S., Radice D., Logoteta D., Guercilena F.M., Numerical relativity simulations of the neutron star merger GW190425: microphysics and mass ratio effects, MNRAS, 516, 4 (2022)
  • Cardoso V., Destounis K., Duque F., Panosso Macedo R., Maselli A. Gravitational Waves from Extreme-Mass-Ratio Systems in Astrophysical Environments, Phys. Rev. Lett. 129, 241103 (2022)
  • Cusinato M., Guercilena F. M., Perego A., Logoteta D., Radice D., Bernuzzi S., Ansoldi S., Neutrino emission from binary neutron star mergers: characterizing light curves and mean energies, The European Physical Journal A, 58, 5, 99 (2022)
  • De Laurentis M., Salucci P., The Accurate Mass Distribution of M87, the Giant Galaxy with Imaged Shadow of Its Supermassive Black Hole, as a Portal to New Physics, Astrophys.J. 929, 17 (2022)
  • Della Monica R., De Martino I., Vernieri D., De Laurentis M., Testing horndeski gravity with S2 star orbit, MNRAS, 519, 1981 (2022)
  • Franceschetti, Del Zanna, Soldateschi, Bucciantini, Numerical Equilibrium Configurations and Quadrupole Moments of Post-Merger Differentially Rotating Relativistic Stars, Universe 8, 172 (2022)
  • Franciolini G., Musco I., Pani P., Urbano A., From inflation to black hole mergers and back again: Gravitational-wave data-driven constraints on inflationary scenarios with a first-principle model of primordial black holes across the QCD epoch, Phys.Rev.D 106, 123526 (2022)
  • Lara G., Bezares M., Barausse E., UV completions, fixing the equations, and nonlinearities in k-essence, Phys. Rev. D 105, 064058 (2022)
  • Mapelli M., Bouffanais Y., Santoliquido F., Arca Sedda M., Artale M. C., The cosmic evolution of binary black holes in young, globular, and nuclear star clusters: rates, masses, spins, and mixing fractions, MNRAS, 511, 5797 (2022)
  • Maselli A., Franchini N., Gualtieri L., Sotiriou T. P., Barsanti S., Pani P., Detecting fundamental fields with LISA observations of gravitational waves from extreme mass-ratio inspirals, Nature Astron. 6, 464-470 (2022)
  • Mei A., Banerjee B., Oganesyan G., Salafia O. S., Giarratana S., Branchesi M., D'Avanzo P., Campana S., Ghirlanda G., Ronchini S., et al., Gigaelectronvolt emission from a compact binary merger, Nature 612, 236-239 (2022)
  • Pacilio C., Maselli A., Fasano M., Pani P., Ranking Love numbers for the neutron star equation of state: The need for third-generation detectors, Phys.Rev.Lett. 128, 101101 (2022)
  • Perego A., Vescovi D., Fiore A., Chiesa L., Vogl C., Benetti S., Bernuzzi S., Branchesi M., Cappellaro E., Cristallo S., Flörs A., Kerzendorf W., Radice D., Production of Very Light Elements and Strontium in the Early Ejecta of Neutron Star Mergers, The Astrophysical Journal, 925, 1, 22 (2022)
  • Perego A., Logoteta D., Radice D., Bernuzzi S., Kashyap R., Das A., Padamata S., Prakash A., Probing the Incompressibility of Nuclear Matter at Ultrahigh Density through the Prompt Collapse of Asymmetric Neutron Star Binaries, Physical Review Letters, 129, 3, 032701 (2022)
  • Pierini L., Gualtieri L., Quasinormal modes of rotating black holes in Einstein-Dilaton Gauss-Bonnet gravity: The second order in rotation, Physical Review D 106, 104009 (2022)

2021

  • Bezares M., Crisostomi M., Palenzuela C., Barausse E., K-dynamics: well-posed 1+1 evolutions in K-essence, JCAP 03, 072 (2021)
  • Bezares M., ter Haar L., Crisostomi M., Barausse E., Palenzuela C., Kinetic screening in nonlinear stellar oscillations and gravitational collapse, Phys. Rev. D 104, 044022 (2021)
  • Breschi M., Perego A., Bernuzzi S., Del Pozzo W., Nedora V., Radice D., Vescovi D., AT2017gfo: Bayesian inference and model selection of multicomponent kilonovae and constraints on the neutron star equation of state, Monthly Notices of the Royal Astronomical Society, 505, 2 (2021)
  • Costa G., Bressan A., Mapelli M., Marigo P., Spera M., Formation of GW190521 from stellar evolution: the impact of the hydrogen-rich envelope, dredge-up, and 12C(α, γ)16O rate on the pair-instability black hole mass gap, MNRAS, 501, 4514 (2021)
  • Cruz-Osorio A., Gimeno-Soler S., Font J. A., De Laurentis M., Mendoza S., Magnetized discs and photon rings around Yukawa-like black holes, Phys.Rev.D 103, 124009 (2021)
  • De Luca V., Desjacques V., Franciolini G., Pani P., Riotto A., The GW190521 Mass Gap Event and the Primordial Black Hole Scenario, Phys.Rev.Lett. 126, 051101 (2021)
  • Gerosa D., Fishbach M., Hierarchical mergers of stellar-mass black holes and their gravitational-wave signatures, Nature Astronomy 5, 749 (2021)
  • Moscibrodzka M., Janiuk A., De Laurentis M., Unraveling circular polarimetric images of magnetically arrested accretion flows near event horizon of a black hole, MNRAS, 508, 4282 (2021)
  • Pavan A., Ciolfi R., Kalinani Jay V., Mignone A., Short gamma-ray burst jet propagation in binary neutron star merger environments, MNRAS, 506, 3483 (2021)
  • Santoliquido F., Mapelli M., Giacobbo N., Bouffanais Y, Artale M. C., The cosmic merger rate density of compact objects: impact of star formation, metallicity, initial mass function, and binary evolution, MNRAS, 502, 4877 (2021)
  • Soldateschi, Bucciantini, Detectability of Continuous Gravitational Waves from Magnetically Deformed Neutron Stars, Galaxies 9, 101 (2021)
  • Soldateschi, Bucciantini, Del Zanna, Quasi-universality of the magnetic deformation of neutron stars in general relativity and beyond, A&A 654, A162 (2021)
  • ter Haar L., Bezares M., Crisostomi M., Barausse E., Palenzuela C., Dynamics of Screening in Modified Gravity, Phys. Rev. Lett. 126, 091102 (2021)
  • Volonteri M., Habouzit M., Colpi M., The origins of massive black holes, Nature Reviews Physics 3, 732 (2021)

2020

  • Chiaramello D., Nagar A., Faithful analytical effective-one-body waveform model for spin-aligned, moderately eccentric, coalescing black hole binaries, Phys. Rev. D 101, 101501 (2020)
  • Cipolletta F., Kalinani J. V., Giacomazzo B., Ciolfi R., Spritz: a new fully general-relativistic magnetohydrodynamic code, Class. Quant. Grav. 37, 135010 (2020)
  • Maselli A., Franchini N., Gualtieri L., Sotiriou T. P. , Detecting scalar fields with extreme mass-ratio inspirals, Phys. Rev. Lett. 125, 141101 (2020)
  • Maselli A., Pani P., Gualtieri L., Berti E., Parametrized ringdowns spin expansion coefficients: a data-analysis framework for black-hole spectroscopy with multiple events, Phys. Rev. D 101, 024043 (2020)
  • Soldateschi, Bucciantini, Del Zanna, Axisymmetric equilibrium models for magnetised neutron stars in scalar-tensor theories, A&A 640, A44 (2020)
  • Tomei, Del Zanna, Bugli, Bucciantini, General relativistic magnetohydrodynamic dynamo in thick accretion discs: fully nonlinear simulations, MNRAS 491, 2346 (2020)

2019

  • Barbieri C., Salafia O. S., Perego A., Colpi M., Ghirlanda G., Light-curve models of black hole - neutron star mergers: steps towards a multi-messenger parameter estimation, A&A 625, A152 (2019)
  • Bonetti M., Sesana A., Haardt F., Barausse E., Colpi M., Post-Newtonian evolution of massive black hole triplets in galactic Nuclei - IV. Implications for LISA, MNRAS 486, 4044 (2019)
  • Witek H., Gualtieri L., Pani P., Sotiriou T. P., Black holes and binary mergers in scalar Gauss-Bonnet gravity: scalar field dynamics, Phys. Rev. D 99, 064035 (2019)
 
 
 
 
 

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