Below is a list of my publications. They can also be found on ADS, Inspire, or the arXiv.
2021
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