Black Hole Coalescence: Observation and Model Validation

Elder, Jamee

doi:10.1007/978-3-031-25686-8_5

SpringerBriefs in History of Science and Technology

2023

DOI: 10.1007/978-3-031-25686-8_5

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Black Hole Coalescence: Observation and Model Validation

Jamee Elder¹

Abstract: This paper will discuss the recent LIGO-Virgo observations of gravitational waves and the binary black hole mergers that produce them. These observations rely on having prior knowledge of the dynamical behaviour of binary black hole systems, as governed by the Einstein Field Equations (EFEs). However, we currently lack any exact, analytic solutions to the EFEs describing such systems. In the absence of such solutions, a range of modelling approaches are used to mediate between the dynamical equations and the e… Show more

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2023

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Cited by 2 publications

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Fishbones, Wheels, Eyes, and Butterflies: Heuristic Structural Reasoning in the Search for Solutions to the Navier-Stokes Equations

Patton

2023

SpringerBriefs in History of Science and Technology

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Arguments for the effectiveness, a nd e ven t he i ndispensability, of mathematics in scientific e xplanation r ely o n t he c laim t hat m athematics is an effective or even a necessary component in successful scientific predictions and explanations. Well-known accounts of successful mathematical explanation in physical science appeals to scientists' ability to solve equations directly in key domains. But there are spectacular physical theories, including general relativity and fluid dynamics, in which the equations of the theory cannot be solved directly in target domains, and yet scientists and mathematicians do effective work there (McLarty 2023, Elder 2023. Building on extant accounts of structural scientific e xplanation ( Bokulich 2 011, L eng 2 021), I a rgue that philosophical accounts of the role of equations in scientific e xplanation need not rely on scientists' ability to solve equations independently of their understanding of the empirical or experimental context. For instance, the process of formulating solutions to equations can involve significant a ppeal t o information about experimental contexts (Curiel 2010) or of physically similar systems (Sterrett 2023). Working from a close analysis of work in fluid mechanics by Martin Bazant and Keith Moffatt ( 2005), I p ropose a n account of heuristic structural explanation in mathematics (Einstein 1921, Pincock 2021, which explains how physical explanations can be constructed even in domains where basic equations cannot be solved directly.

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Fishbones, Wheels, Eyes, and Butterflies: Heuristic Structural Reasoning in the Search for Solutions to the Navier-Stokes Equations

Patton

2023

SpringerBriefs in History of Science and Technology

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Theory Testing in Gravitational-Wave Astrophysics

Elder

2023

Synthese Library

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The LIGO-Virgo Collaboration achieved the first ‘direct detection’ of gravitational waves in 2015, opening a new “window” for observing the universe. Since this first detection (‘GW150914’), dozens of detections have followed, mostly produced by binary black hole mergers. However, the theory-ladenness of the LIGO-Virgo methods for observing these events leads to a potentially-vicious circularity, where general relativistic assumptions may serve to mask phenomena that are inconsistent with general relativity (GR). Under such circumstances, the fact that GR can ‘save the phenomena’ may be an artifact of theory-laden methodology.This paper examines several ways that the LIGO-Virgo observations are used in theory and hypothesis testing, despite this circularity problem. First, despite the threat of vicious circularity, these experiments succeed in testing GR. Indeed, early tests of GR using GW150914 are best understood as a response to the threat of theory-ladenness and circularity. Each test searches for evidence that LIGO-Virgo’s theory-laden methods are biasing their overall conclusions. The failure to find evidence of this places constraints on deviations from the predictions of GR. Second, these observations provide a basis for studying astrophysical and cosmological processes, especially through analyses of populations of events. As gravitational-wave astrophysics transitions into mature science, constraints from early tests of GR provide a scaffolding for these population-based studies. I further characterize this transition in terms of its increasing connectedness to other parts of astrophysics and the prominence of reasoning about selection effects and other systematics in drawing inferences from observations.Overall, this paper analyses the ways that theory and hypothesis testing operate in gravitational-wave astrophysics as it gains maturity. In particular, I show how these tests build on one another in order to mitigate a circularity problem at the heart of the observations.

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Black Hole Coalescence: Observation and Model Validation

Cited by 2 publications

References 44 publications

Fishbones, Wheels, Eyes, and Butterflies: Heuristic Structural Reasoning in the Search for Solutions to the Navier-Stokes Equations

Fishbones, Wheels, Eyes, and Butterflies: Heuristic Structural Reasoning in the Search for Solutions to the Navier-Stokes Equations

Theory Testing in Gravitational-Wave Astrophysics

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