Assessing the importance of first post-adiabatic terms for small-mass-ratio binaries
Assessing the importance of first post-adiabatic terms for small-mass-ratio binaries
We investigate the impact of post-adiabatic (1PA) terms on parameter estimation for extreme and intermediate mass-ratio inspirals using state-of-the-art waveform models. Our analysis is the first to employ Bayesian inference to assess systematic errors for 1PA waveforms. We find that neglecting 1PA terms introduces significant biases for the (small) mass ratio ϵ ≳ 10−5 for quasi circular orbits in Schwarzschild spacetime, which can be mitigated with resummed 3PN expressions at 1PA order. Moreover, we show that the secondary spin is strongly correlated with the other intrinsic parameters, and it can not be constrained for ϵ ≲ 10−5. Finally, we highlight the need for addressing eccentric waveform systematics in the small-mass-ratio regime, as they yield stronger biases than the circular limit in both intrinsic and extrinsic parameters.
Burke, Ollie
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Piovano, Gabriel
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Warburton, Niels
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Lynch, Philip
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Speri, Lorenzo
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Kavanagh, Chris
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Wardell, Barry
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Pound, Adam
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Durkan, Leanne
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Miller, Jeremy
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Burke, Ollie
938b449e-0b98-4349-975a-0c5fba7bf81f
Piovano, Gabriel
78bc87ee-2fff-4237-a832-698ba5821ae0
Warburton, Niels
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Lynch, Philip
e03c5dcd-0667-478b-a395-22bd237ff078
Speri, Lorenzo
1970f532-71be-48d4-9ff2-cee61cadfa20
Kavanagh, Chris
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Wardell, Barry
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Pound, Adam
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Durkan, Leanne
75962250-05ce-44f4-bc73-9c9b55893fb6
Miller, Jeremy
3627a185-b431-4483-89d8-333b984967c4
Burke, Ollie, Piovano, Gabriel, Warburton, Niels, Lynch, Philip, Speri, Lorenzo, Kavanagh, Chris, Wardell, Barry, Pound, Adam, Durkan, Leanne and Miller, Jeremy
(2024)
Assessing the importance of first post-adiabatic terms for small-mass-ratio binaries.
Physical Review D.
(In Press)
Abstract
We investigate the impact of post-adiabatic (1PA) terms on parameter estimation for extreme and intermediate mass-ratio inspirals using state-of-the-art waveform models. Our analysis is the first to employ Bayesian inference to assess systematic errors for 1PA waveforms. We find that neglecting 1PA terms introduces significant biases for the (small) mass ratio ϵ ≳ 10−5 for quasi circular orbits in Schwarzschild spacetime, which can be mitigated with resummed 3PN expressions at 1PA order. Moreover, we show that the secondary spin is strongly correlated with the other intrinsic parameters, and it can not be constrained for ϵ ≲ 10−5. Finally, we highlight the need for addressing eccentric waveform systematics in the small-mass-ratio regime, as they yield stronger biases than the circular limit in both intrinsic and extrinsic parameters.
Text
1PA_project
- Accepted Manuscript
More information
Accepted/In Press date: 15 May 2024
Identifiers
Local EPrints ID: 490188
URI: http://eprints.soton.ac.uk/id/eprint/490188
ISSN: 2470-0010
PURE UUID: 1d5c64b1-a6e4-4e93-a628-ffdca919dae7
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Date deposited: 16 May 2024 16:50
Last modified: 12 Jul 2024 01:49
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Contributors
Author:
Ollie Burke
Author:
Gabriel Piovano
Author:
Niels Warburton
Author:
Philip Lynch
Author:
Lorenzo Speri
Author:
Chris Kavanagh
Author:
Barry Wardell
Author:
Leanne Durkan
Author:
Jeremy Miller
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