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Efficient Gravitational Wave Template Bank Generation with Differentiable Waveforms
by
Horng Sheng Chia
, Freese, Katherine
, Edwards, Thomas D P
, Weniger, Christoph
, Coogan, Adam
, George, Richard N
, Messick, Cody
, Setzer, Christian N
, Zimmerman, Aaron
in
Algorithms
/ Data transmission
/ Differentiation
/ Electromagnetic wave filters
/ Gravitational waves
/ Matched filters
/ Monte Carlo simulation
/ Parameters
/ Physical properties
/ Pipelines
/ Placement
/ Searching
/ Waveforms
2022
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Efficient Gravitational Wave Template Bank Generation with Differentiable Waveforms
by
Horng Sheng Chia
, Freese, Katherine
, Edwards, Thomas D P
, Weniger, Christoph
, Coogan, Adam
, George, Richard N
, Messick, Cody
, Setzer, Christian N
, Zimmerman, Aaron
in
Algorithms
/ Data transmission
/ Differentiation
/ Electromagnetic wave filters
/ Gravitational waves
/ Matched filters
/ Monte Carlo simulation
/ Parameters
/ Physical properties
/ Pipelines
/ Placement
/ Searching
/ Waveforms
2022
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Do you wish to request the book?
Efficient Gravitational Wave Template Bank Generation with Differentiable Waveforms
by
Horng Sheng Chia
, Freese, Katherine
, Edwards, Thomas D P
, Weniger, Christoph
, Coogan, Adam
, George, Richard N
, Messick, Cody
, Setzer, Christian N
, Zimmerman, Aaron
in
Algorithms
/ Data transmission
/ Differentiation
/ Electromagnetic wave filters
/ Gravitational waves
/ Matched filters
/ Monte Carlo simulation
/ Parameters
/ Physical properties
/ Pipelines
/ Placement
/ Searching
/ Waveforms
2022
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Efficient Gravitational Wave Template Bank Generation with Differentiable Waveforms
Paper
Efficient Gravitational Wave Template Bank Generation with Differentiable Waveforms
2022
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Overview
The most sensitive search pipelines for gravitational waves from compact binary mergers use matched filters to extract signals from the noisy data stream coming from gravitational wave detectors. Matched-filter searches require banks of template waveforms covering the physical parameter space of the binary system. Unfortunately, template bank construction can be a time-consuming task. Here we present a new method for efficiently generating template banks that utilizes automatic differentiation to calculate the parameter space metric. Principally, we demonstrate that automatic differentiation enables accurate computation of the metric for waveforms currently used in search pipelines, whilst being computationally cheap. Additionally, by combining random template placement and a Monte Carlo method for evaluating the fraction of the parameter space that is currently covered, we show that search-ready template banks for frequency-domain waveforms can be rapidly generated. Finally, we argue that differentiable waveforms offer a pathway to accelerating stochastic placement algorithms. We implement all our methods into an easy-to-use Python package based on the jax framework, diffbank, to allow the community to easily take advantage of differentiable waveforms for future searches.
Publisher
Cornell University Library, arXiv.org
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