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  2024 (4)
Astrophysical and relativistic modeling of the recoiling black-hole candidate in quasar 3C 186. Boschini, M.; Gerosa, D.; Sharan Salafia, O.; and Dotti, M. arXiv,arXiv:2402.08740. February 2024.
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pAGN: the one-stop solution for AGN disc modeling. Gangardt, D.; Trani, A. A.; Bonnerot, C.; and Gerosa, D. arXiv,arXiv:2403.00060. February 2024.
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Probing AGN jet precession with LISA. Steinle, N.; Gerosa, D.; and Krause, M. G. arXiv,arXiv:2403.00066. February 2024.
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Calibrating signal-to-noise ratio detection thresholds using gravitational-wave catalogs. Mould, M.; Moore, C. J.; and Gerosa, D. Physical Review D, 109(6): 063013. March 2024.
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  2023 (14)
Eccentricity or spin precession? Distinguishing subdominant effects in gravitational-wave data. Romero-Shaw, I. M.; Gerosa, D.; and Loutrel, N. Monthly Notices of the Royal Astronomical Society, 519(4): 5352-5357. March 2023.
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The Bardeen-Petterson effect, disc breaking, and the spin orientations of supermassive black hole binaries. Steinle, N.; and Gerosa, D. Monthly Notices of the Royal Astronomical Society, 519(4): 5031-5042. March 2023.
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Astrophysics with the Laser Interferometer Space Antenna. Amaro-Seoane, P.; Andrews, J.; Arca Sedda, M.; Askar, A.; Baghi, Q.; Balasov, R.; Bartos, I.; Bavera, S. S.; Bellovary, J.; Berry, C. P.; Berti, E.; Bianchi, S.; Blecha, L.; Blondin, S.; Bogdanović, T.; Boissier, S.; Bonetti, M.; Bonoli, S.; Bortolas, E.; Breivik, K.; Capelo, P. R.; Caramete, L.; Cattorini, F.; Charisi, M.; Chaty, S.; Chen, X.; Chruślińska, M.; Chua, A. J.; Church, R.; Colpi, M.; D'Orazio, D.; Danielski, C.; Davies, M. B.; Dayal, P.; De Rosa, A.; Derdzinski, A.; Destounis, K.; Dotti, M.; DuÅ£an, I.; Dvorkin, I.; Fabj, G.; Foglizzo, T.; Ford, S.; Fouvry, J.; Franchini, A.; Fragos, T.; Fryer, C.; Gaspari, M.; Gerosa, D.; Graziani, L.; Groot, P.; Habouzit, M.; Haggard, D.; Haiman, Z.; Han, W.; Istrate, A.; Johansson, P. H.; Khan, F. M.; Kimpson, T.; Kokkotas, K.; Kong, A.; Korol, V.; Kremer, K.; Kupfer, T.; Lamberts, A.; Larson, S.; Lau, M.; Liu, D.; Lloyd-Ronning, N.; Lodato, G.; Lupi, A.; Ma, C.; Maccarone, T.; Mandel, I.; Mangiagli, A.; Mapelli, M.; Mathis, S.; Mayer, L.; McGee, S.; McKernan, B.; Miller, M. C.; Mota, D. F.; Mumpower, M.; Nasim, S. S.; Nelemans, G.; Noble, S.; Pacucci, F.; Panessa, F.; Paschalidis, V.; Pfister, H.; Porquet, D.; Quenby, J.; Ricarte, A.; Röpke, F. K.; Regan, J.; Rosswog, S.; Ruiter, A.; Ruiz, M.; Runnoe, J.; Schneider, R.; Schnittman, J.; Secunda, A.; Sesana, A.; Seto, N.; Shao, L.; Shapiro, S.; Sopuerta, C.; Stone, N. C.; Suvorov, A.; Tamanini, N.; Tamfal, T.; Tauris, T.; Temmink, K.; Tomsick, J.; Toonen, S.; Torres-Orjuela, A.; Toscani, M.; Tsokaros, A.; Unal, C.; Vázquez-Aceves, V.; Valiante, R.; van Putten , M.; van Roestel , J.; Vignali, C.; Volonteri, M.; Wu, K.; Younsi, Z.; Yu, S.; Zane, S.; Zwick, L.; Antonini, F.; Baibhav, V.; Barausse, E.; Bonilla Rivera, A.; Branchesi, M.; Branduardi-Raymont, G.; Burdge, K.; Chakraborty, S.; Cuadra, J.; Dage, K.; Davis, B.; de Mink , S. E.; Decarli, R.; Doneva, D.; Escoffier, S.; Gandhi, P.; Haardt, F.; Lousto, C. O.; Nissanke, S.; Nordhaus, J.; O'Shaughnessy, R.; Portegies Zwart, S.; Pound, A.; Schussler, F.; Sergijenko, O.; Spallicci, A.; Vernieri, D.; and Vigna-Gómez, A. Living Reviews in Relativity, 26(1): 2. December 2023.
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QLUSTER: quick clusters of merging binary black holes. Gerosa, D.; and Mould, M. arXiv,arXiv:2305.04987. May 2023.
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Inferring, not just detecting: Metrics for high-redshift sources observed with third-generation gravitational-wave detectors. Mancarella, M.; Iacovelli, F.; and Gerosa, D. Physical Review D, 107(10): L101302. May 2023.
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Parameter estimation of binary black holes in the endpoint of the up-down instability. De Renzis, V.; Gerosa, D.; Mould, M.; Buscicchio, R.; and Zanga, L. Physical Review D, 108(2): 024024. July 2023.
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Efficient multi-timescale dynamics of precessing black-hole binaries. Gerosa, D.; Fumagalli, G.; Mould, M.; Cavallotto, G.; Monroy, D. P.; Gangardt, D.; and De Renzis, V. Physical Review D, 108(2): 024042. July 2023.
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One to many: comparing single gravitational-wave events to astrophysical populations. Mould, M.; Gerosa, D.; Dall'Amico, M.; and Mapelli, M. Monthly Notices of the Royal Astronomical Society, 525(3): 3986-3997. November 2023.
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Extending black-hole remnant surrogate models to extreme mass ratios. Boschini, M.; Gerosa, D.; Varma, V.; Armaza, C.; Boyle, M.; Bonilla, M. S.; Ceja, A.; Chen, Y.; Deppe, N.; Giesler, M.; Kidder, L. E.; Kumar, P.; Lara, G.; Long, O.; Ma, S.; Mitman, K.; Nee, P. J.; Pfeiffer, H. P.; Ramos-Buades, A.; Scheel, M. A.; Vu, N. L.; and Yoo, J. Physical Review D, 108(8): 084015. October 2023.
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The cosmic variance of testing general relativity with gravitational-wave catalogs. Pacilio, C.; Gerosa, D.; and Bhagwat, S. arXiv,arXiv:2310.03811. October 2023.
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Black-hole mergers in disklike environments could explain the observed q -\ensuremathχ$_{eff}$ correlation. Santini, A.; Gerosa, D.; Cotesta, R.; and Berti, E. Physical Review D, 108(8): 083033. October 2023.
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Waveform Modelling for the Laser Interferometer Space Antenna. LISA Consortium Waveform Working Group; Afshordi, N.; Akçay, S.; Amaro Seoane, P.; Antonelli, A.; Aurrekoetxea, J. C.; Barack, L.; Barausse, E.; Benkel, R.; Bernard, L.; Bernuzzi, S.; Berti, E.; Bonetti, M.; Bonga, B.; Bozzola, G.; Brito, R.; Buonanno, A.; Cárdenas-Avendanõ, A.; Casals, M.; Chernoff, D. F.; Chua, A. J.; Clough, K.; Colleoni, M.; Dhesi, M.; Druart, A.; Durkan, L.; Faye, G.; Ferguson, D.; Field, S. E.; Gabella, W. E.; Garcı́a-Bellido, Juan; Gracia-Linares, M.; Gerosa, D.; Green, S. R.; Haney, M.; Hannam, M.; Heffernan, A.; Hinderer, T.; Helfer, T.; Hughes, S. A.; Husa, S.; Isoyama, S.; Katz, M. L.; Kavanagh, C.; Khanna, G.; Kidder, L. E.; Korol, V.; Küchler, L.; Laguna, P.; Larrouturou, F.; Le Tiec, A.; Leather, B.; Lim, E. A.; Lim, H.; Littenberg, T. B.; Long, O.; Lousto, C. O.; Lovelace, G.; Lukes-Gerakopoulos, G.; Lynch, P.; Macedo, R. P.; Markakis, C.; Maggio, E.; Mandel, I.; Maselli, A.; Mathews, J.; Mourier, P.; Neilsen, D.; Nagar, A.; Nichols, D. A.; Novák, J.; Okounkova, M.; O'Shaughnessy, R.; Oshita, N.; O'Toole, C.; Pan, Z.; Pani, P.; Pappas, G.; Paschalidis, V.; Pfeiffer, H. P.; Pompili, L.; Pound, A.; Pratten, G.; Rüter, H. R.; Ruiz, M.; Sam, Z.; Sberna, L.; Shapiro, S. L.; Shoemaker, D. M.; Sopuerta, C. F.; Spiers, A.; Sundar, H.; Tamanini, N.; Thompson, J. E.; Toubiana, A.; Tsokaros, A.; Upton, S. D.; van de Meent , M.; Vernieri, D.; Wachter, J. M.; Warburton, N.; Wardell, B.; Witek, H.; Witzany, V.; Yang, H.; and Zilhão, M. arXiv,arXiv:2311.01300. November 2023.
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Glitch systematics on the observation of massive black-hole binaries with LISA. Spadaro, A.; Buscicchio, R.; Vetrugno, D.; Klein, A.; Gerosa, D.; Vitale, S.; Dolesi, R.; Weber, W. J.; and Colpi, M. Physical Review D, 108(12): 123029. December 2023.
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Spin-eccentricity interplay in merging binary black holes. Fumagalli, G.; and Gerosa, D. Physical Review D, 108(12): 124055. December 2023.
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  2022 (10)
The Bardeen-Petterson effect in accreting supermassive black hole binaries: disc breaking and critical obliquity. Nealon, R.; Ragusa, E.; Gerosa, D.; Rosotti, G.; and Barbieri, R. Monthly Notices of the Royal Astronomical Society, 509(4): 5608-5621. February 2022.
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Gravitational-wave population inference at past time infinity. Mould, M.; and Gerosa, D. Physical Review D, 105(2): 024076. January 2022.
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The last three years: multiband gravitational-wave observations of stellar-mass binary black holes. Klein, A.; Pratten, G.; Buscicchio, R.; Schmidt, P.; Moore, C. J.; Finch, E.; Bonino, A.; Thomas, L. M.; Williams, N.; Gerosa, D.; McGee, S.; Nicholl, M.; and Vecchio, A. arXiv,arXiv:2204.03423. April 2022.
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Inferring the Properties of a Population of Compact Binaries in Presence of Selection Effects. Vitale, S.; Gerosa, D.; Farr, W. M.; and Taylor, S. R. In Handbook of Gravitational Wave Astronomy. Edited by C. Bambi, pages 45. 2022.
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New horizons for fundamental physics with LISA. Arun, K.; Belgacem, E.; Benkel, R.; Bernard, L.; Berti, E.; Bertone, G.; Besancon, M.; Blas, D.; Böhmer, C. G.; Brito, R.; Calcagni, G.; Cardenas-Avendaño, A.; Clough, K.; Crisostomi, M.; De Luca, V.; Doneva, D.; Escoffier, S.; Ezquiaga, J. M.; Ferreira, P. G.; Fleury, P.; Foffa, S.; Franciolini, G.; Frusciante, N.; Garcı́a-Bellido, Juan; Herdeiro, C.; Hertog, T.; Hinderer, T.; Jetzer, P.; Lombriser, L.; Maggio, E.; Maggiore, M.; Mancarella, M.; Maselli, A.; Nampalliwar, S.; Nichols, D.; Okounkova, M.; Pani, P.; Paschalidis, V.; Raccanelli, A.; Randall, L.; Renaux-Petel, S.; Riotto, A.; Ruiz, M.; Saffer, A.; Sakellariadou, M.; Saltas, I. D.; Sathyaprakash, B.; Shao, L.; Sopuerta, C. F.; Sotiriou, T. P.; Stergioulas, N.; Tamanini, N.; Vernizzi, F.; Witek, H.; Wu, K.; Yagi, K.; Yazadjiev, S.; Yunes, N.; Zilhão, M.; Afshordi, N.; Angonin, M.; Baibhav, V.; Barausse, E.; Barreiro, T.; Bartolo, N.; Bellomo, N.; Ben-Dayan, I.; Bergshoeff, E. A.; Bernuzzi, S.; Bertacca, D.; Bhagwat, S.; Bonga, B.; Burko, L. M.; Compére, G.; Cusin, G.; da Silva , A.; Das, S.; de Rham , C.; Destounis, K.; Dimastrogiovanni, E.; Duque, F.; Easther, R.; Farmer, H.; Fasiello, M.; Fisenko, S.; Fransen, K.; Frauendiener, J.; Gair, J.; Gergely, L. Á.; Gerosa, D.; Gualtieri, L.; Han, W.; Hees, A.; Helfer, T.; Hennig, J.; Jenkins, A. C.; Kajfasz, E.; Kaloper, N.; Karas, V.; Kavanagh, B. J.; Klioner, S. A.; Koushiappas, S. M.; Lagos, M.; Poncin-Lafitte, C. L.; Lobo, F. S.; Markakis, C.; Martı́n-Moruno, Prado; Martins, C.; Matarrese, S.; Mayerson, D. R.; Mimoso, J. P.; Noller, J.; Nunes, N. J.; Oliveri, R.; Orlando, G.; Pappas, G.; Pikovski, I.; Pilo, L.; Podolský, J.; Pratten, G.; Prokopec, T.; Qi, H.; Rastgoo, S.; Ricciardone, A.; Rollo, R.; Rubiera-Garcia, D.; Sergijenko, O.; Shapiro, S.; Shoemaker, D.; Spallicci, A.; Stashko, O.; Stein, L. C.; Tasinato, G.; Tolley, A. J.; Vagenas, E. C.; Vandoren, S.; Vernieri, D.; Vicente, R.; Wiseman, T.; Zhdanov, V. I.; and Zumalacárregui, M. Living Reviews in Relativity, 25(1): 4. December 2022.
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Constraining black-hole binary spin precession and nutation with sequential prior conditioning. Gangardt, D.; Gerosa, D.; Kesden, M.; De Renzis, V.; and Steinle, N. Physical Review D, 106(2): 024019. July 2022.
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The irreducible mass and the horizon area of LIGO's black holes. Gerosa, D.; Fabbri, C. M.; and Sperhake, U. Classical and Quantum Gravity, 39(17): 175008. September 2022.
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Which black hole formed first? Mass-ratio reversal in massive binary stars from gravitational-wave data. Mould, M.; Gerosa, D.; Broekgaarden, F. S.; and Steinle, N. Monthly Notices of the Royal Astronomical Society, 517(2): 2738-2745. December 2022.
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Characterization of merging black holes with two precessing spins. De Renzis, V.; Gerosa, D.; Pratten, G.; Schmidt, P.; and Mould, M. Physical Review D, 106(8): 084040. October 2022.
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Deep learning and Bayesian inference of gravitational-wave populations: Hierarchical black-hole mergers. Mould, M.; Gerosa, D.; and Taylor, S. R. Physical Review D, 106(10): 103013. November 2022.
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  2021 (12)
Testing general relativity with gravitational-wave catalogs: The insidious nature of waveform systematics. Moore, C. J.; Finch, E.; Buscicchio, R.; and Gerosa, D. iScience, 24(6): 102577. June 2021.
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A taxonomy of black-hole binary spin precession and nutation. Gangardt, D.; Steinle, N.; Kesden, M.; Gerosa, D.; and Stoikos, E. Physical Review D, 103(12): 124026. June 2021.
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A generalized precession parameter \ensuremathχ$_{p}$ to interpret gravitational-wave data. Gerosa, D.; Mould, M.; Gangardt, D.; Schmidt, P.; Pratten, G.; and Thomas, L. M. Physical Review D, 103(6): 064067. March 2021.
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Eccentric binary black hole surrogate models for the gravitational waveform and remnant properties: Comparable mass, nonspinning case. Islam, T.; Varma, V.; Lodman, J.; Field, S. E.; Khanna, G.; Scheel, M. A.; Pfeiffer, H. P.; Gerosa, D.; and Kidder, L. E. Physical Review D, 103(6): 064022. March 2021.
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Up-down instability of binary black holes in numerical relativity. Varma, V.; Mould, M.; Gerosa, D.; Scheel, M. A.; Kidder, L. E.; and Pfeiffer, H. P. Physical Review D, 103(6): 064003. March 2021.
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Massive black hole binary inspiral and spin evolution in a cosmological framework. Sayeb, M.; Blecha, L.; Kelley, L. Z.; Gerosa, D.; Kesden, M.; and Thomas, J. Monthly Notices of the Royal Astronomical Society, 501(2): 2531-2546. February 2021.
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High Mass but Low Spin: An Exclusion Region to Rule Out Hierarchical Black Hole Mergers as a Mechanism to Populate the Pair-instability Mass Gap. Gerosa, D.; Giacobbo, N.; and Vecchio, A. Astrophysical Journal, 915(1): 56. July 2021.
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Hierarchical mergers of stellar-mass black holes and their gravitational-wave signatures. Gerosa, D.; and Fishbach, M. Nature Astronomy, 5: 749-760. July 2021.
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Bayesian parameter estimation of stellar-mass black-hole binaries with LISA. Buscicchio, R.; Klein, A.; Roebber, E.; Moore, C. J.; Gerosa, D.; Finch, E.; and Vecchio, A. Physical Review D, 104(4): 044065. August 2021.
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Looking for the parents of LIGO's black holes. Baibhav, V.; Berti, E.; Gerosa, D.; Mould, M.; and Wong, K. W. Physical Review D, 104(8): 084002. October 2021.
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Population-informed priors in gravitational-wave astronomy. Moore, C. J.; and Gerosa, D. Physical Review D, 104(8): 083008. October 2021.
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Modeling the outcome of supernova explosions in binary population synthesis using the stellar compactness. Dabrowny, M.; Giacobbo, N.; and Gerosa, D. Rendiconti Lincei. Scienze Fisiche e Naturali, 32(4): 665-673. December 2021.
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  2020 (14)
Gravitational-wave selection effects using neural-network classifiers. Gerosa, D.; Pratten, G.; and Vecchio, A. Physical Review D, 102(10): 103020. November 2020.
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Mapping the asymptotic inspiral of precessing binary black holes to their merger remnants. Reali, L.; Mould, M.; Gerosa, D.; and Varma, V. Classical and Quantum Gravity, 37(22): 225005. November 2020.
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Astrophysical Implications of GW190412 as a Remnant of a Previous Black-Hole Merger. Gerosa, D.; Vitale, S.; and Berti, E. Physical Review Letters, 125(10): 101103. September 2020.
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Structure of Neutron Stars in Massive Scalar-Tensor Gravity. Rosca-Mead, R.; Moore, C. J.; Sperhake, U.; Agathos, M.; and Gerosa, D. Symmetry, 12(9): 1384. August 2020.
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Core collapse in massive scalar-tensor gravity. Rosca-Mead, R.; Sperhake, U.; Moore, C. J.; Agathos, M.; Gerosa, D.; and Ott, C. D. Physical Review D, 102(4): 044010. August 2020.
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The mass gap, the spin gap, and the origin of merging binary black holes. Baibhav, V.; Gerosa, D.; Berti, E.; Wong, K. W.; Helfer, T.; and Mould, M. Physical Review D, 102(4): 043002. August 2020.
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The Bardeen-Petterson effect in accreting supermassive black hole binaries: a systematic approach. Gerosa, D.; Rosotti, G.; and Barbieri, R. Monthly Notices of the Royal Astronomical Society, 496(3): 3060-3075. August 2020.
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Populations of double white dwarfs in Milky Way satellites and their detectability with LISA. Korol, V.; Toonen, S.; Klein, A.; Belokurov, V.; Vincenzo, F.; Buscicchio, R.; Gerosa, D.; Moore, C.; Roebber, E.; Rossi, E.; and Vecchio, A. Astronomy & Astrophysics, 638: A153. June 2020.
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Endpoint of the up-down instability in precessing binary black holes. Mould, M.; and Gerosa, D. Physical Review D, 101(12): 124037. June 2020.
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Black holes in the low-mass gap: Implications for gravitational-wave observations. Gupta, A.; Gerosa, D.; Arun, K.; Berti, E.; Farr, W. M.; and Sathyaprakash, B. Physical Review D, 101(10): 103036. May 2020.
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Milky Way Satellites Shining Bright in Gravitational Waves. Roebber, E.; Buscicchio, R.; Vecchio, A.; Moore, C. J.; Klein, A.; Korol, V.; Toonen, S.; Gerosa, D.; Goldstein, J.; Gaebel, S. M.; and Woods, T. E. Astrophysical Journal, 894(2): L15. May 2020.
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Evolutionary roads leading to low effective spins, high black hole masses, and O1/O2 rates for LIGO/Virgo binary black holes. Belczynski, K.; Klencki, J.; Fields, C.; Olejak, A.; Berti, E.; Meynet, G.; Fryer, C.; Holz, D.; O'Shaughnessy, R.; Brown, D.; Bulik, T.; Leung, S.; Nomoto, K.; Madau, P.; Hirschi, R.; Kaiser, E.; Jones, S.; Mondal, S.; Chruslinska, M.; Drozda, P.; Gerosa, D.; Doctor, Z.; Giersz, M.; Ekstrom, S.; Georgy, C.; Askar, A.; Baibhav, V.; Wysocki, D.; Natan, T.; Farr, W.; Wiktorowicz, G.; Coleman Miller, M.; Farr, B.; and Lasota, J. -. Astronomy & Astrophysics, 636: A104. April 2020.
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Amplification of superkicks in black-hole binaries through orbital eccentricity. Sperhake, U.; Rosca-Mead, R.; Gerosa, D.; and Berti, E. Physical Review D, 101(2): 024044. January 2020.
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Prospects for fundamental physics with LISA. Barausse, E.; Berti, E.; Hertog, T.; Hughes, S. A.; Jetzer, P.; Pani, P.; Sotiriou, T. P.; Tamanini, N.; Witek, H.; Yagi, K.; and et al. General Relativity and Gravitation, 52(8): 81. August 2020.
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  2019 (13)
Constraining the Fraction of Binary Black Holes Formed in Isolation and Young Star Clusters with Gravitational-wave Data. Bouffanais, Y.; Mapelli, M.; Gerosa, D.; Di Carlo, U. N.; Giacobbo, N.; Berti, E.; and Baibhav, V. Astrophysical Journal, 886(1): 25. November 2019.
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Machine-learning interpolation of population-synthesis simulations to interpret gravitational-wave observations: A case study. Wong, K. W.; and Gerosa, D. Physical Review D, 100(8): 083015. October 2019.
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Surrogate models for precessing binary black hole simulations with unequal masses. Varma, V.; Field, S. E.; Scheel, M. A.; Blackman, J.; Gerosa, D.; Stein, L. C.; Kidder, L. E.; and Pfeiffer, H. P. Physical Review Research, 1(3): 033015. October 2019.
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Gravitational-wave detection rates for compact binaries formed in isolation: LIGO/Virgo O3 and beyond. Baibhav, V.; Berti, E.; Gerosa, D.; Mapelli, M.; Giacobbo, N.; Bouffanais, Y.; and Di Carlo, U. N. Physical Review D, 100(6): 064060. September 2019.
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Escape speed of stellar clusters from multiple-generation black-hole mergers in the upper mass gap. Gerosa, D.; and Berti, E. Physical Review D, 100(4): 041301. August 2019.
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Are stellar-mass black-hole binaries too quiet for LISA?. Moore, C. J.; Gerosa, D.; and Klein, A. Monthly Notices of the Royal Astronomical Society, 488(1): L94-L98. September 2019.
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Optimizing LIGO with LISA forewarnings to improve black-hole spectroscopy. Tso, R.; Gerosa, D.; and Chen, Y. Physical Review D, 99(12): 124043. June 2019.
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Multiband gravitational-wave event rates and stellar physics. Gerosa, D.; Ma, S.; Wong, K. W.; Berti, E.; O'Shaughnessy, R.; Chen, Y.; and Belczynski, K. Physical Review D, 99(10): 103004. May 2019.
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Wide nutation: binary black-hole spins repeatedly oscillating from full alignment to full anti-alignment. Gerosa, D.; Lima, A.; Berti, E.; Sperhake, U.; Kesden, M.; and O'Shaughnessy, R. Classical and Quantum Gravity, 36(10): 105003. May 2019.
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The binary black hole explorer: on-the-fly visualizations of precessing binary black holes. Varma, V.; Stein, L. C.; and Gerosa, D. Classical and Quantum Gravity, 36(9): 095007. May 2019.
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Frequency-domain waveform approximants capturing Doppler shifts. Chamberlain, K.; Moore, C. J.; Gerosa, D.; and Yunes, N. Physical Review D, 99(2): 024025. January 2019.
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High-Accuracy Mass, Spin, and Recoil Predictions of Generic Black-Hole Merger Remnants. Varma, V.; Gerosa, D.; Stein, L. C.; Hébert, F.; and Zhang, H. Physical Review Letters, 122(1): 011101. January 2019.
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Black holes, gravitational waves and fundamental physics: a roadmap. Barack, L.; Cardoso, V.; Nissanke, S.; Sotiriou, T. P.; Askar, A.; Belczynski, C.; Bertone, G.; Bon, E.; Blas, D.; Brito, R.; and et al. Classical and Quantum Gravity, 36(14): 143001. July 2019.
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  2018 (7)
Spin orientations of merging black holes formed from the evolution of stellar binaries. Gerosa, D.; Berti, E.; O'Shaughnessy, R.; Belczynski, K.; Kesden, M.; Wysocki, D.; and Gladysz, W. Physical Review D, 98(8): 084036. October 2018.
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Mining gravitational-wave catalogs to understand binary stellar evolution: A new hierarchical Bayesian framework. Taylor, S. R.; and Gerosa, D. Physical Review D, 98(8): 083017. October 2018.
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Gravitational-wave astrophysics with effective-spin measurements: Asymmetries and selection biases. Ng, K. K.; Vitale, S.; Zimmerman, A.; Chatziioannou, K.; Gerosa, D.; and Haster, C. Physical Review D, 98(8): 083007. October 2018.
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Black-hole kicks from numerical-relativity surrogate models. Gerosa, D.; Hébert, F.; and Stein, L. C. Physical Review D, 97(10): 104049. May 2018.
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Explaining LIGO's observations via isolated binary evolution with natal kicks. Wysocki, D.; Gerosa, D.; O'Shaughnessy, R.; Belczynski, K.; Gladysz, W.; Berti, E.; Kesden, M.; and Holz, D. E. Physical Review D, 97(4): 043014. February 2018.
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Reanalysis of LIGO black-hole coalescences with alternative prior assumptions. Gerosa, D.; Vitale, S.; Haster, C.; Chatziioannou, K.; and Zimmerman, A. IAU Symposium, 338: 22-28. October 2018.
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Surprises from the spins: astrophysics and relativity with detections of spinning black-hole mergers. Gerosa, D. In Journal of Physics Conference Series, volume 957, pages 012014, March 2018.
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  2017 (7)
Impact of Bayesian Priors on the Characterization of Binary Black Hole Coalescences. Vitale, S.; Gerosa, D.; Haster, C.; Chatziioannou, K.; and Zimmerman, A. Physical Review Letters, 119(25): 251103. December 2017.
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Long-Lived Inverse Chirp Signals from Core-Collapse in Massive Scalar-Tensor Gravity. Sperhake, U.; Moore, C. J.; Rosca, R.; Agathos, M.; Gerosa, D.; and Ott, C. D. Physical Review Letters, 119(20): 201103. November 2017.
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Nutational resonances, transitional precession, and precession-averaged evolution in binary black-hole systems. Zhao, X.; Kesden, M.; and Gerosa, D. Physical Review D, 96(2): 024007. July 2017.
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Inferences about Supernova Physics from Gravitational-Wave Measurements: GW151226 Spin Misalignment as an Indicator of Strong Black-Hole Natal Kicks. O'Shaughnessy, R.; Gerosa, D.; and Wysocki, D. Physical Review Letters, 119(1): 011101. July 2017.
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Are merging black holes born from stellar collapse or previous mergers?. Gerosa, D.; and Berti, E. Physical Review D, 95(12): 124046. June 2017.
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On the equal-mass limit of precessing black-hole binaries. Gerosa, D.; Sperhake, U.; and Vošmera, J. Classical and Quantum Gravity, 34(6): 064004. March 2017.
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filltex: Automatic queries to ADS and INSPIRE databases to fill LaTex bibliography. Gerosa, D.; and Vallisneri, M. The Journal of Open Source Software, 2: 222. May 2017.
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  2016 (5)
Black Hole Kicks as New Gravitational Wave Observables. Gerosa, D.; and Moore, C. J. Physical Review Letters, 117(1): 011101. July 2016.
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precession: Dynamics of spinning black-hole binaries with python. Gerosa, D.; and Kesden, M. Physical Review D, 93(12): 124066. June 2016.
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Numerical simulations of stellar collapse in scalar-tensor theories of gravity. Gerosa, D.; Sperhake, U.; and Ott, C. D. Classical and Quantum Gravity, 33(13): 135002. July 2016.
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Distinguishing black-hole spin-orbit resonances by their gravitational wave signatures. II. Full parameter estimation. Trifirò, D.; O'Shaughnessy, R.; Gerosa, D.; Berti, E.; Kesden, M.; Littenberg, T.; and Sperhake, U. Physical Review D, 93(4): 044071. February 2016.
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Source modelling at the dawn of gravitational-wave astronomy. Gerosa, D. Ph.D. Thesis, University of Cambridge, September 2016.
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  2015 (9)
Precessional Instability in Binary Black Holes with Aligned Spins. Gerosa, D.; Kesden, M.; O'Shaughnessy, R.; Klein, A.; Berti, E.; Sperhake, U.; and Trifirò, D. Physical Review Letters, 115(14): 141102. October 2015.
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Tensor-multi-scalar theories: relativistic stars and 3 + 1 decomposition. Horbatsch, M.; Silva, H. O.; Gerosa, D.; Pani, P.; Berti, E.; Gualtieri, L.; and Sperhake, U. Classical and Quantum Gravity, 32(20): 204001. October 2015.
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Multi-timescale analysis of phase transitions in precessing black-hole binaries. Gerosa, D.; Kesden, M.; Sperhake, U.; Berti, E.; and O'Shaughnessy, R. Physical Review D, 92(6): 064016. September 2015.
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Spin alignment and differential accretion in merging black hole binaries. Gerosa, D.; Veronesi, B.; Lodato, G.; and Rosotti, G. Monthly Notices of the Royal Astronomical Society, 451(4): 3941-3954. August 2015.
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Effective Potentials and Morphological Transitions for Binary Black Hole Spin Precession. Kesden, M.; Gerosa, D.; O'Shaughnessy, R.; Berti, E.; and Sperhake, U. Physical Review Letters, 114(8): 081103. February 2015.
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Missing black holes in brightest cluster galaxies as evidence for the occurrence of superkicks in nature. Gerosa, D.; and Sesana, A. Monthly Notices of the Royal Astronomical Society, 446(1): 38-55. January 2015.
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Testing general relativity with present and future astrophysical observations. Berti, E.; Barausse, E.; Cardoso, V.; Gualtieri, L.; Pani, P.; Sperhake, U.; Stein, L. C.; Wex, N.; Yagi, K.; Baker, T.; Burgess, C.; Coelho, F. S.; Doneva, D.; De Felice, A.; Ferreira, P. G.; Freire, P. C.; Healy, J.; Herdeiro, C.; Horbatsch, M.; Kleihaus, B.; Klein, A.; Kokkotas, K.; Kunz, J.; Laguna, P.; Lang, R. N.; Li, T. G.; Littenberg, T.; Matas, A.; Mirshekari, S.; Okawa, H.; Radu, E.; O'Shaughnessy, R.; Sathyaprakash, B. S.; Van Den Broeck, C.; Winther, H. A.; Witek, H.; Emad Aghili, M.; Alsing, J.; Bolen, B.; Bombelli, L.; Caudill, S.; Chen, L.; Degollado, J. C.; Fujita, R.; Gao, C.; Gerosa, D.; Kamali, S.; Silva, H. O.; Rosa, J. G.; Sadeghian, L.; Sampaio, M.; Sotani, H.; and Zilhao, M. Classical and Quantum Gravity, 32(24): 243001. December 2015.
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Rival Families: Waveforms from Resonant Black-Hole Binaries as Probes of Their Astrophysical Formation History. Gerosa, D. In Gravitational Wave Astrophysics, volume 40, pages 137, January 2015.
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Spin Alignment Effects in Black Hole Binaries. Gerosa, D. Caltech Undergraduate Research Journal (CURJ) : Winter 2014, 15(1): 17. March 2015.
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  2014 (1)
Distinguishing black-hole spin-orbit resonances by their gravitational-wave signatures. Gerosa, D.; O'Shaughnessy, R.; Kesden, M.; Berti, E.; and Sperhake, U. Physical Review D, 89(12): 124025. June 2014.
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  2013 (2)
Resonant-plane locking and spin alignment in stellar-mass black-hole binaries: A diagnostic of compact-binary formation. Gerosa, D.; Kesden, M.; Berti, E.; O'Shaughnessy, R.; and Sperhake, U. Physical Review D, 87(10): 104028. May 2013.
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Black hole mergers: do gas discs lead to spin alignment?. Lodato, G.; and Gerosa, D. Monthly Notices of the Royal Astronomical Society, 429: L30-L34. February 2013.
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