Below is a list of my publications. They can also be found on ADS, Inspire, or the arXiv.
2022
39. Comparing second-order gravitational self-force and effective one body waveforms from inspiralling, quasi-circular and nonspinning black hole binaries II: the large-mass-ratio case
A. Albertini, A. Nagar, A. Pound, N. Warburton, B. Wardell, L. Durkan, J. Miller, arXiv:2208.02055
38. Comparing second-order gravitational self-force, numerical relativity and effective one body waveforms from inspiralling, quasi-circular and nonspinning black hole binaries
A. Albertini, A. Nagar, A. Pound, N. Warburton, B. Wardell, L. Durkan, J. Miller, arXiv:2208.01049
37. Slow evolution of the metric perturbation due to a quasicircular inspiral into a Schwarzschild black hole
L. Durkan, Niels Warburton, arXiv:2206.08179
36. Hyperboloidal method for frequency-domain self-force calculations
Rodrigo Panosso Macedo, Benjamin Leather, Niels Warburton, Barry Wardell, Anıl Zenginoğlu, Phys. Rev. D 105, 104033, arXiv:2202.01794
2021
35. Gravitational waveforms for compact binaries from second-order self-force theory
Barry Wardell, Adam Pound, Niels Warburton, Jeremy Miller, Leanne Durkan, Alexandre Le Tiec, arXiv:2112.12265
34. Eccentric self-forced inspirals into a rotating black hole
Philip Lynch, Maarten van de Meent, Niels Warburton, Class. Quantum Grav. 39 145004, arXiv:2112.05651
33. Survey of gravitational wave memory in intermediate mass ratio binaries
Tousif Islam, Scott E. Field, Gaurav Khanna, Niels Warburton, arXiv:2109.00754
32. Gravitational-wave energy flux for compact binaries through second order in the mass ratio
Niels Warburton, Adam Pound, Barry Wardell, Jeremy Miller, Leanne Durkan, Phys. Rev. Lett. 127, 151102, arXiv:2107.01298
31. FastEMRIWaveforms: New tools for millihertz gravitational-wave data analysis
Michael L. Katz, Alvin J.K. Chua, Lorenzo Speri, Niels Warburton, Scott A. Hughes, Phys. Rev. D 104, 064047, arXiv:2104.04582
30. Adiabatic waveforms for extreme mass-ratio inspirals via multivoice decomposition in time and frequency
Scott A. Hughes, Niels Warburton, Gaurav Khanna, Alvin J. K. Chua, Michael L. Katz, Phys. Rev. D 103, 104014, arXiv:2102.02713
2020
29. Rapid generation of fully relativistic extreme-mass-ratio-inspiral waveform templates for LISA data analysis
Alvin J. K. Chua, Michael L. Katz, Niels Warburton, Scott A. Hughes, Phys. Rev. Lett. 126, 051102, arXiv:2008.06071
2019
28. Dissipation in extreme-mass ratio binaries with a spinning secondary
S. Akcay, S. R. Dolan, C. Kavanagh, J. Moxon, N. Warburton, B. Wardell, Phys. Rev. D. 102:064013, arXiv:1912.09461
27. The location of the last stable orbit in Kerr spacetime
L. C. Stein and N. Warburton, Phys. Rev. D 101:064007 arXiv:1912.07609
26. Probing the Nature of Black Holes: Deep in the mHz Gravitational-Wave Sky
V. Baibhav et al. (including N. Warburton), Exp. Astron. (2021), arXiv:1908.11390
25. Unveiling the Gravitational Universe at μ-Hz Frequencies
A. Sesana et al. (including N. Warburton), Exp. Astron. (2021), arXiv:1908.11391
24. The Missing Link in Gravitational-Wave Astronomy: Discoveries waiting in the decihertz range
M. Arca Sedda et al. (including N. Warburton), Class.Quant.Grav. 37:215011 , arXiv:1908.11375
23. Second-order self-force calculation of gravitational binding energy
A. Pound, B. Wardell, N. Warburton, J. Miller, Phys. Rev. Lett. 124.021101, arXiv:1908.07419
22. Factorization and resummation: A new paradigm to improve gravitational wave amplitudes. III: the spinning test-body terms
A. Nagar, F. Messina, C. Kavanagh, G. Lukes-Gerakopoulos, N. Warburton, S. Bernuzzi, E. Harms, Phys. Rev. D 100:104056, arXiv:1907.12233
21. Gravitational waves from bodies orbiting the Galactic Center black hole and their detectability by LISA
E. Gourgoulhon, A. Le Tiec, F. H. Vincent, N. Warburton, A&A, 627 (2019) A92, arXiv:1903.02049
2018
20. High-order asymptotics for the Spin-Weighted Spheroidal Equation at large real frequency
M. Casals, A. C. Ottewill, N. Warburton, Proc. R. Soc. A 475:20180701, arXiv:1810.00432
19. Fast Self-forced Inspirals
M. van de Meent, N. Warburton, Class. Quant. Grav. 35:144003, arXiv:1802.05281
2017
18. Accelerated motion and the self-force in Schwarzschild spacetime
A. Heffernan, A. C. Ottewill, N. Warburton, B. Wardell, P. Diener, Class. Quant. Grav. 35:194001, arXiv:1712.01098
17. Evolution of a small mass-ratio binary with a spinning secondary
N. Warburton, T. Osburn, C. R. Evans, Phys. Rev. D 96:084057, arXiv:1708.03720
2016
16. Inspiral into Gargantua
S. E. Gralla, S. A. Hughes, N. Warburton, Class. Quant. Grav. 33:155002, arXiv:1603.01221
2015
15. Highly eccentric inspirals into a black hole
T. Osburn, N. Warburton, C. R. Evans, Phys. Rev. D 93:064024, arXiv:1511.01498
14. Particle on the Innermost Stable Circular Orbit of a Rapidly Spinning Black Hole
S. E. Gralla, A. P. Porfyriadis, N. Warburton, Phys. Rev. D 92:064029, arXiv:1506.08496
13. Applying the effective-source approach to frequency-domain self-force calculations: Lorenz-gauge gravitational perturbations
B. Wardell, N. Warburton, Phys. Rev. D 92:084019, arXiv:1505:07841
12. Octupolar invariants for compact binaries on quasi-circular orbits
P. Nolan, C. Kavanagh, S. R. Dolan, A. C. Ottewill, N. Warburton, B. Wardell, Phys. Rev. D 92:123008, arXiv:1505.04447
11. Comparison Between Self-Force and Post-Newtonian Dynamics: Beyond Circular Orbits
S. Akcay, A. Le Tiec, L. Barack, N. Sago, N. Warburton, Phys. Rev. D 91:124014, arXiv:1503:01374
2014
10. Self force on a scalar charge in Kerr spacetime: inclined circular orbits
N. Warburton, Phys. Rev. D 91:024045, arXiv:1408.2885
9. Tidal invariants for compact binaries on quasi-circular orbits
S. R. Dolan, P. Nolan, A. C. Ottewill, N. Warburton, B. Wardell, Phys. Rev. D 91:023009, arXiv:1406.4890
8. Gravitational Self-Force Correction to the Innermost Stable Circular Equatorial Orbit of a Kerr Black Hole
S. Isoyama, L. Barack, S. R. Dolan, A. Le Tiec, H. Nakano, A. G. Shah, T. Tanaka, N. Warburton, Phys. Rev. Lett. 113:161101, arXiv:1404.6133
2013
7. Gravitational self-torque and spin precession in compact binaries
S. R. Dolan, N. Warburton, A. I. Harte, A. Le Tiec, B. Wardell, L. Barack, Phys. Rev. D 89:064011, arXiv:1312.0775
6. Applying the effective-source approach to frequency-domain self-force calculations
N. Warburton, B. Wardell, Phys. Rev. D 89:044046, arXiv:1311.3104
5. Frequency-domain algorithm for the Lorenz-gauge gravitational self-force
S. Akcay, N. Warburton, L. Barack, Phys. Rev. D 88:104009, arXiv:1308.5223
4. Isofrequency pairing of geodesic orbits in Kerr geometry
N. Warburton, L. Barack, N. Sago, Phys. Rev. D 87:084012, arXiv:1301.3918
2011
3. Evolution of inspiral orbits around a Schwarzschild black hole
N. Warburton, S. Akcay, L. Barack, J. Gair, N. Sago, Phys. Rev. D 85:061501(R), arXiv:1111.6908
2. Self force on a scalar charge in Kerr spacetime: eccentric equatorial orbits
N. Warburton, L. Barack, Phys. Rev. D 83:124038, arXiv:1103.0287
2010
1. Self force on a scalar charge in Kerr spacetime: circular equatorial orbits
N. Warburton, L. Barack, Phys. Rev. D 81:084039, arXiv:1003.1860