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  1. L. Copparoni, L. Speri, L. Sberna, A. Derdzinski and E. Barausse, The implications of stochastic gas torques for asymmetric binaries in the LISA band, Submitted to Phys. Rev. D [arXiv:2502.10087].

  2. A. Toubiana, L. Sberna, M. Volonteri, E. Barausse, et al., Reconciling PTA and JWST and preparing for LISA with \textttPOMPOCO: a Parametrisation Of the Massive black hole POpulation for Comparison to Observations, submitted to A& A [arXiv:2410.17916].

  3. J. Sadiq, T. Dent, A. L. Medina, Looking To The Horizon: Probing Evolution in the Black Hole Spectrum With GW Catalogs, [arXiv:2502.06451 ].

  4. J. Sadiq, K. Dey, T. Dent and E. Barausse, Reconstructing the LISA massive black hole binary population via iterative kernel density estimation, submitted to Phys. Rev. D [arXiv:2410.17056].

  5. N. Afshordi, A. Ashtekar, E. Barausse, E. Berti, R. Brito, L. Buoninfante, R. Carballo-Rubio, V. Cardoso, G. Carullo and M. Dafermos, et al., Black Holes Inside and Out 2024: visions for the future of black hole physics, submitted to GRG [arXiv:2410.14414].

  6. R. Cayuso,  A. Kuntz, M. Bezares,  and E. Barausse, Scalar emission from neutron star-black hole binaries in scalar-tensor theories with kinetic screening, Phys. Rev. D 110, 104071  [ arXiv.2410.16367].

  7. R. Cayuso, M. Herrero-Valea and E. Barausse, Deep Learning solutions to singular problems: from special functions to spherical accretion, submitted to Phys. Rev. D [arXiv:2409.20150].

  8. J. Sadiq, T. Dent, M. Gieles, Binary vision: The merging black hole binary mass distribution via iterative density estimation,  ApJ 960 65, [arXiv:2307.12092 ].

  9. M. E. Rubio, G. Lara, M. Bezares, M. Crisostomi and E. Barausse, Fixing the dynamical evolution of self-interacting vector fields, Phys. Rev. D 110, 063015 [arXiv:2407.08774].

  10. P. A. Cano, L. Capuano, N. Franchini, S. Maenaut and S. H. Völkel, Higher-derivative corrections to the Kerr quasinormal mode spectrum, Phys. Rev. D 110, 124057 [arXiv:2409.04517]. 

  11. A. Gupta, K. G. Arun, E. Barausse et al., Possible Causes of False General Relativity Violations in Gravitational Wave Observations, SciPostPhysCommRep5(2025) [arXiv:2405.02197].

  12. P. A. Cano, L. Capuano, N. Franchini, S. Maenaut and S. H. Völkel, A parametrized quasi-normal mode framework for modified Teukolsky equations, Phys. Rev. D 110, 104007 [arXiv:2407.15947].

  13. L. Capuano, L. Santoni and E. Barausse, Perturbations of the Vaidya metric in the frequency domain: Quasi-normal modes and tidal response, Phys. Rev. D 110, 084081 [arXiv:2407.06009]. 

  14. R. Srinivasan, M. Crisostomi, R. Trotta, E. Barausse and M. Breschi, Bayesian evidence estimation from posterior samples with normalizing flows, Phys. Rev. D 110, 123007  [arXiv:2404.12294].

  15. C. Smarra, A. Kuntz, E. Barausse, et. al., Constraints on conformal ultralight dark matter couplings from the European Pulsar Timing Array, Phys. Rev. D 110, 043033, [arXiv:2405.01633].

  16. S. Yi, A. Kuntz, E. Barausse, E. Berti, et. al, Nonlinear quasinormal mode detectability with next-generation gravitational wave detectors, Phys. Rev. D 109, 124029, [arXiv:2403.09767 ].

  17. A. Kuntz and E. Barausse, Angular momentum sensitivities in scalar-tensor theories, Phys. Rev. D 109, 124001, arXiv:2403.07980].

  18. J. Antoniadis, P. Arumugam, S. Arumugam, P. Auclair, S. Babak, M. Bagchi, A. S. B. Nielsen, E. Barausse, C. G. Bassa and A. Bathula, et al., The second data release from the European Pulsar Timing Array: V. Implications for massive blackholes, dark matter and the early Universe, preprint submitted to A&A [arXiv:2306.16227].

  19. E. Barausse, The physics of gravitational waves, POS 440(002), 2024 [arXiv:2303.11713].

  20. E. Barausse, K. Dey, M. Crisostomi, A. Panayada, S. Marsat and S. Basak, Implications of the pulsar timing array detections for massive black hole mergers in the LISA band, Phys. Rev. D 108, 103034(2023) [arXiv:2307.12245].

  21. C. Smarra, B. Goncharov, E. Barausse, J. Antoniadis, S. Babak, A. S. B. Nielsen, C. G. Bassa, A. Berthereau, M. Bonetti and E. Bortolas, et al., The second data release from the European Pulsar Timing Array: VI. Challenging the ultralight dark matter paradigm, Rev. Lett. 131, 171001(2023) [arXiv:2306.16228].

  22. M. Crisostomi, K. Dey, E. Barausse and R. Trotta, Neural Posterior Estimation with guaranteed exact coverage: the ringdown of GW150914, Phys. Rev. D 108, 044029(2023) [arXiv:2305.18528].

  23. K. Dey, E. Barausse and S. Basak, Measuring deviations from the Kerr geometry with black hole ringdown, Phys. Rev. D108,024064(2023) [arXiv:2212.10725].

  24. R. Ghosh, N. Franchini, S. H. Völkel and E. Barausse, Quasi-normal modes of non-separable perturbation equations: the scalar non-Kerr case, Phys. Rev. D108,024038(2023) [arXiv:2303.00088].

  25. S. Gasparotto, R. Vicente, D. Blas, A. C. Jenkins and E. Barausse, Can gravitational-wave memory help constrain binary black-hole parameters? A LISA case study, Phys.Rev.D107,124033(2023) [arXiv:2301.13228].

  26. M. E. Rubio, Á. D. Kovács, M. Herrero-Valea, M. Bezares and E. Barausse, Well-posed evolution of field theories with anisotropic scaling:  the Lifshitz scalar field in a blackhole space timeJCAP11(2023)001 [arXiv:2307.13041].

  27. P. E. Montes, M. E. Rubio, O. A. Reula, Numerical simulations of divergence-type theories for conformal dissipative fluids, Phys. Rev. D 107, 103041(2023) [arXiv:2304.08584].

  28. N. Afshordi et al. [LISA Consortium Waveform Working Group], Waveform Modelling for the Laser Interferometer Space Antenna, Submitted to Living Reviews in Relativity [arXiv:2311.01300]

  29. T. Baker, E. Barausse, A. Chen, C. de Rham, M. Pieroni and G. Tasinato, Testing gravitational wave propagation with multiband detections, JCAP03(2023)044 [arXiv:2209.14398].

  30. P. Auclair et al, Cosmology with the Laser Interferometer Space Antenna,  Living Rev Relativ 26, 5(2023) 
    [arXiv:2204.05434].

  31. I. J. Araya, N. D. Padilla, M. E. Rubio, J. Sureda, J. Magaña, L. Osorio, Dark matter from primordial black holes would hold charge, JCAP02(2023)030 [arXiv:2207.05829].

  32. J. Magana, M. San Martin, J. Sureda, M. Rubio, I. Araya, N. Padilla, Extended primordial black hole mass functions with a spike, MNRAS, V. 520, I. 3, 4276–4288(2023) [arXiv:2207.13689].

  33. G. Lara, M. Bezares, M. Crisostomi, E. Barausse, Robustness of kinetic screening against matter coupling, Phys. Rev. D 107, 044019(2023) [arXiv: 2207.03437].

  34. M. Bošković, E, Barausse, Two-body problem in theories with kinetic screening, Phys. Rev. D 108,064033(2023) 
    [arXiv:2305.07725].

  35. N. Franchini, S. H. Völkel, Parametrized quasi-normal mode framework for non-Schwarzschild metrics, Phys. Rev. D 107, 124063(2023) [arXiv:2210.14020].

  36. L. Capuano, L. Santoni, E. Barausse, Black hole hairs in scalar-tensor gravity and the lack thereof, Phys. Rev. D 108, 064058(2023) [arXiv:2304.12750].

  37. S. H. Völkel, Quasinormal modes from bound states: The numerical approach, Phys. Rev. D 106, 124009(2023) 
    [    arXiv:2210.02069].

  38. L. Speri, A. Antonelli, L. Sberna, S. Babak, E. Barausse, J. R. Gair and M. L. Katz, Probing Accretion Physics with Gravitational Waves, Phys. Rev. X 13,021035(2023) [arXiv:2207.10086].

  39. N. Franchini, M. Bezares, E. Barausse and L. Lehner, Fixing the dynamical evolution in scalar-Gauss-Bonnet gravity, Phys. Rev. D106,064061(2022) [arXiv:2206.00014]. 

  40. E. Barausse, M. Bezares, M. Crisostomi, G. Lara, The well-posedness of the Cauchy problem for self-interacting vector fields, JCAP11(2022)050 [arXiv: 2207.00443].

  41. S. H. Völkel, N. Franchini, E. Barausse, E. Berti, Constraining modifications of black hole perturbation potentials near the light ring with quasinormal modes, Phys. Rev. D106 12, 4036(2022) [arXiv:2209.10564].

  42. S. H. Völkel, N. Franchini, E. Barausse, Theory-agnostic reconstruction of potential and couplings from quasinormal modes, Phys. Rev. D 105, 084046(2022) [arXiv:2202.08655].

  43. L. Sberna, et al., Observing GW190521-like binary black holes and their environment with LISA, Phys. Rev. D 106, 064056(2022) [arXiv:2205.08550].

  44. M. Pieroni, A. Ricciardone and E. Barausse, Detectability and parameter estimation of stellar origin black holebinaries with next generation gravitational wave detectors, PhysRev.D106,064056(2022) [arXiv:2203.12586].

  45. S. Hollands, Á. D. Kovács, H. S. Reall, The second law of black hole mechanics in effective field theory, J. High Energ. Phys. 2022, 258 [arXiv:2205.15341].

  46. K. G. Arun, et al., New Horizons for Fundamental Physics with LISA, Living Reviews in Relativity, Living Reviews in Relativity v.25/4 (2022) [arXiv:2205.01597].

  47. S. Bondani, F. Haardt, A. Sesana, E. Barausse and M. Dotti, On the detectability of gravitational waves from primordial black holes orbiting Sgr A∗, Phys. Rev. D 106, 043015(2022) [arXiv:2203.05663].

  48. S. Barsanti, N. Franchini, L. Gualtieri, A. Maselli, and T. P. Sotiriou, Extreme mass-ratio inspirals as probes of scalar fields: eccentric equatorial orbits around Kerr black holes, Phys. Rev. D 106,044029(2022) [arXiv:2203.05003]

  49. G. Lara, M. Bezares and E. Barausse, UV completions, fixing the equations and nonlinearities ink-essencePhys. Rev. D 105, 064058(2022) [arXiv:2112.09186].

  50. S. Bhagwat, C. Pacilio, E. Barausse and P. Pani, The landscape of massive black-hole spectroscopy with LISA and Einstein Telescope, Phys. Rev. D 105, 124063(2022) [arXiv:2201.00023].

  51. M. Bezares, M. Boškovic ́, S. Liebling, C. Palenzuela, P. Pani and E. Barausse, Gravitational waves and kicks from the merger of unequal mass, highly compact boson starsPhys. Rev. D 105, 064067(2022) [arXiv:2201.06113].

  52. S. H. Völkel, C. J. Krüger, Constraining the Nuclear Equation of State from Rotating Neutron Stars,   Phys. Rev. D 105, 124071(2022) [arXiv:2203.05555].

  53. A. Coates, S. H. Völkel, K. D. Kokkotas,  On Black Hole Area Quantization and Echoes, Class. Quantum Grav. 39 045007 (2022) [arXiv:2201.03245].

  54. M. Bošković, E. Barausse, Soliton boson stars, Q-balls and the causal Buchdahlbound, JCAP02(2022)032 
    [arXiv:2111.03870].

  55. G. LaraS. H. VölkelE. Barausse, Separating Astrophysics and Geometry in Black Hole Images, Phys. Rev. D 104, 124041(2021) [arXiv:2110.00026].

  56. C. J. KrügerK. D. KokkotasP. ManoharanS. H. Völkel, Fast Rotating Neutron Stars: Oscillations and Instabilities, Front. Astron. Space Sci. (2021) [arXiv:2110.00393].

  57. M. Bezares, R. Aguilera-Miret, L. ter Haar, M. Crisostomi, C. Palenzuela and E. Barausse, No evidence of kinetic screening in merging binary neutron stars, Phys. Rev. Lett. 128, 091103 (2022) [arXiv:2107.05648].

  58. A. Dima, M. Bezares and E. Barausse, Dynamical Chameleon Neutron Stars: stability, radial oscillations and scalar radiation in spherical symmetry, Phys. Rev. D 104, 084017(2021) [arXiv:2107.04359].

  59. M. Herrero-Valea, The shape of Scalar Gauss-Bonnet Gravity, J. High Energ. Phys. 2022, 75 (2022)[arXiv:2106.08344].

  60. A. Toubiana, K. W. K. Wong, S. Babak, E. Barausse, E. Berti, J. R. Gair, S. Marsat and S.R. Taylor, Discriminating between different scenarios for the formation and evolution of massive black holes with LISA, Phys. Rev. D 104, 083027 (2021) [arXiv:2106.13819].

  61. E. Barausse, E. Berti, V. Cardoso, S.A. Hughes and G. Khanna, Divergences in gravitational-wave emission and absorption from extreme mass ratio binariesPhys. Rev. D 104, 064031(2021) [arXiv:2106.09721].

  62. M. Bezares, L. ter Haar, M. Crisostomi, E. Barausse and C. Palenzuela, Kinetic screening in nonlinear stellar oscillations and gravitational collapsePhys. Rev. D 104, 044022 (2021) [arXiv:2105.13992].

  63. T. Gupta, M. Herrero-Valea, D. Blas, E. Barausse, N. Cornish, K. Yagi and N. Yunes, New binary pulsar constraints on Einstein-æther theory after GW170817Class.QuantumGrav 38,195003(2021) [arXiv:2104.04596].

  64. A. Maselli, N. FranchiniL. GualtieriT. P. SotiriouS. Barsanti, P. Pani, Detecting new fundamental fields with LISA, Nat Astron 6, 464–470 (2022) [arXiv:2106.11325].

  65. N. Franchini, M. Herrero-Valea and E. Barausse, Relation between general relativity and a class of Horava gravity theories, Phys. Rev. D 103, 084012 [arXiv:2103.00929].

  66. K. Dey, N. Karnesis, A. Toubiana, E. Barausse, N. Korsakova, Q. Baghi and S. Basak, Effect of data gaps on the detectability and parameter estimation of massive black hole binaries with LISAPhys. Rev. D 104, 044035 (2021) [arXiv:2104.12646].

  67. G. Lara, M. Herrero-Valea, E. Barausse and S. M. Sibiryakov, Black Holes in Ultraviolet-Complete Horava Gravity, Phys. Rev. D 103, 104007(2021) [arXiv:2103.01975].

  68. E. Barausse, M. Crisostomi, S. Liberati, L. ter Haar, Degenerate Horava gravityClass. Quantum Grav. 38 105007(2021) [arXiv:2101.00641].

  69. M. Herrero-Valea, S. Liberati, R. Santos-Garcia, Hawking Radiation from Universal Horizons, J. High Energ. Phys. 2021, 255 (2021) [arXiv:2101.00028].

  70. S. H. Völkel, C. J. Krüger, K. D. Kokkotas, Bayesian Inverse Problem of Rotating Neutron Stars, Phys. Rev. D 103, 083008(2021) [arXiv:2103.07266].

  71. A. G. Suvorov, S. H. Völkel, Exact theory for the Rezzolla-Zhidenko metric and self-consistent calculation of quasinormal modes, Phys. Rev. D 103, 044027(2021) [arXiv:2101.09697].

  72. A. Toubiana, S. Babak, E. Barausse, L. Lehner, Modeling gravitational waves from exotic compact objects, Phys. Rev. D 103, 064042(2021) [arXiv:2011.12122 ].

  73. M. Herrero-Valea, R. Santos-Garcia, A. Tokareva, Massless Positivity in  Graviton Exchange,  Phys. Rev. D 104, 085022(2021) [arXiv:2011.11652].

  74. S. H. Völkel, E. Barausse, N. Franchini, A. E. Broderick, EHT tests of the strong-field regime of General Relativity, Class. Quantum Grav., Vo.38, Number 21(2021[arXiv:2011.06812]

  75. E. Barausse, A. Lapi, Massive Black Hole Mergers, Invited chapter for "Handbook of Gravitational Wave Astronomy", (Eds. C. Bambi, S. Katsanevas, K. Kokkotas; Springer Singapore,2020; p. 1-33)  [arXiv:2011.01994].

  76. A. Toubiana, L. Sberna, A. Caputo, et. al, Detectable environmental effects in GW190521-like black-hole binaries with LISA, Phys. Rev. Lett. 126, 101105 (2021) [arXiv:2010.06056]. 

  77. L. ter Haar, M. Bezares, M. Crisostomi, E. Barausse, C. Palenzuela, Dynamics of screening in modified gravity, Phys. Rev. Lett. 126, 091102 (2021) [arXiv:2009.03354]. 

  78. M. Bezares, M. Crisostomi, C. Palenzuela and E. Barausse, K-dynamics: well-posed initial value 1+1 evolutions in K-essenceJCAP03(2021)072 [arXiv:2008.07546]​. 

  79. M. Herrero-Valea,  A Path (Integral) to Scale Invariance, 2020 [arXiv:2007.04335]

  80. S. H. Völkel, E. Barausse, Bayesian Metric Reconstruction with Gravitational Wave Observations,  Phys. Rev. D 102, 084025(2020) [arXiv:2007.02986].

  81. M. Herrero-Valea, R. Santos-Garcia, Non-minimal tinges of Unimodular Gravity, J. High Energ. Phys. 2020, 41 (2020) [arXiv:2006.06698].

  82. E. Barausse, I. Dvorkin, M. Tremmel, M. Volonteri, M. Bonetti, Massive black hole merger rates: The effect of kiloparsec separation wandering and supernova feedback ApJ. 904 (2020) no.1 [arXiv:2006.03065].

  83. A. Dima, E. Barausse, N. Franchini, T. P. Sotiriou, Spin-induced black hole spontaneous scalarizationPhys. Rev. Lett. 125, 231101(2020) [arXiv:2006.03095].

  84. H. M. Fan, Y. M. Hu, E. Barausse, A. Sesana, J. D. Zhang, T. G. Zi, J. Mei, Science with the TianQin observatory: Preliminary result on extreme-mass-ratio inspirals, Phys. Rev. D 102, 063016 (2020[arXiv:2005.08212].

  85. A. Maselli, N. Franchini, L. Gualtieri, T. P. Sotiriou, Detecting scalar fields with Extreme Mass Ratio InspiralsPhys. Rev. Lett. 125, 141101(2020) [arXiv:2004.11895].

  86. A. Toubiana, S. Marsat, E. Barausse, S. Babak, J. Baker, Test of general relativity with stellar-mass black hole binaries observed by LISA, Phys. Rev. D 101, 104038 (2020) [arXiv:2004.03626].

  87. N. Tamanini, A. Klein, C. Bonvin, E. Barausse, C. Caprini, The peculiar acceleration of stellar-origin black hole binaries: measurement and biases with LISA, Phys. Rev. D 101, 063002(2020)[arXiv:1907.02018].

  88. M. Pieroni, E. Barausse, Foreground cleaning and template-free stochastic background extraction for LISA, JCAP07(2020)021 [arXiv:2004.01135].

  89. A. Dima, E. Barausse, Numerical investigation of plasma-driven superradiant instabilities, Class.Quant.Grav.37(2020) no.17, 175006 [arXiv:2001.11484].

  90. E. BarausseE. BertiT. Hertog, et al., Prospects for Fundamental Physics with LISA, Gen Relativ Gravit 52, 81 (2020) [ arXiv:2001.09793].

  91. A. Caputo, L. Sberna, A. Toubiana, S. Babak, E. Barausse, S. Marsat,  P. Pani, Gravitational-wave detection and parameter estimation for accreting black hole binaries and their electromagnetic counterpart, ApJ. 892 (2020) no.2 [arXiv:2001.03620].

  92. E. Barausse, Neutron star sensitivities in Horava gravity after GW170817, Phys.Rev. D100 (2019) no.8, 084053 [arXiv:1907.05958].

  93. C. Shi, J. Bao, H. Wang, J. Zhang, Y. Hu, A. Sesana, E. Barausse, J. Mei,  J. Luo, Science with the TianQin observatory: Preliminary results on testing the no-hair theorem with ringdown signals, Phys.Rev. D100 (2019) no.4, 044036 [arXiv:1902.08922].

  94. H. T. Wang, Z. Jiang, A. Sesana, E. Barausse, et. al., Science with the Tianqin Observatory: Preliminary results on massive black hole binaries, Phys.Rev. D100 (2019) no.4,043003 
    [arXiv:1902.04423].

  95. O. Sarbach, E. Barausse, J. Preciado-Lopez, Well-Posed Cauchy formulation for Einstein-æther theory, Class.Quant.Grav. 36 (2019) no.16, 165007 [arXiv:1902.05130].

  96. E. Belgacem, G. Calcagni, M.  Crisostomi, C.  Dalang, Y.  Dirian, et. al, Testing modified gravity at cosmological distances with LISA standard sirens, JAP 1907 (2019) 024 [arXiv:1906.01593].

  97. E. Barausse, Black Holes in General Relativity and Beyond, MDPI Proc. 17 (2019) no.1,1 [arXiv:1902.0919 9].

  98. M. Bonetti,  A. Sesana,  F. Haardt, E. Barausse,  M. Colpi, Post Newtonian evolution of massive black hole triplets in galactic nuclei: IV. Implications for LISA, Mon.Not.Roy.Astron.Soc. 486 (2019) no.3, 4044-4060 [arXiv:1812.01011].

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