Package to compute the Frequency-Hough Transform to search for continuous gravitational waves in LIGO, Virgo and KAGRA data
Project description
pyhough
pyhough is a Python package implementing the (Generalized) Frequency-Hough transform for searching (transient) continuous gravitational waves from:
- Asymmetrically rotating neutron stars
- Planetary-mass primordial black hole (PBH) binaries
- Newborn neutron stars
This method maps time-frequency tracks from spectrograms (e.g., created by PyFstat) into the frequency–spindown parameter space, allowing efficient searches for weak, long-duration gravitational-wave signals.
The frequency-Hough Transform can be applied to either the spectrogram directly after thresholding (and selecting local maxima) to create the peakmap
The Generalized frequency-Hough transform is implemented, but no Python codes exist yet to inject and recover PBH inspirals or signals from newborn neutron stars. Help is welcome on these fronts.
Features
- Construct time–frequency peakmaps from preprocessed data
- Doppler correction for sources in the sky
- Standard Frequency-Hough transform for persistent CW signals
- Generalized Frequency-Hough transform for transient or chirping signals
Installation
pip install pyhough
Contributions
Contributions are welcome, especially in the following areas:
-
Signal injection and recovery tools for PBH binaries and newborn neutron stars
-
Unit tests and test coverage
-
Improving documentation and usage examples
-
Feel free to open issues or submit pull requests!
If you use this code, please cite the public, version-independent Zenodo entry:
and also cite the papers that are the basis behind the codes:
The frequency-Hough has been developed by the Rome Virgo group for all-sky searches for continuous waves from non-axisymmetric, rotating neutron stars and can be cited as:
@article{Astone:2014esa,
author = "Astone, Pia and Colla, Alberto and D'Antonio, Sabrina and Frasca, Sergio and Palomba, Cristiano",
title = "{Method for all-sky searches of continuous gravitational wave signals using the frequency-Hough transform}",
eprint = "1407.8333",
archivePrefix = "arXiv",
primaryClass = "astro-ph.IM",
doi = "10.1103/PhysRevD.90.042002",
journal = "Phys. Rev. D",
volume = "90",
number = "4",
pages = "042002",
year = "2014"
}
The Generalized Frequency-Hough transform has been developed by the Rome Virgo group for transient continuous-wave searches for newborn neutron stars and can be cited as:
@article{Miller:2018rbg,
author = "Miller, Andrew and others",
title = "{Method to search for long duration gravitational wave transients from isolated neutron stars using the generalized frequency-Hough transform}",
eprint = "1810.09784",
archivePrefix = "arXiv",
primaryClass = "astro-ph.IM",
doi = "10.1103/PhysRevD.98.102004",
journal = "Phys. Rev. D",
volume = "98",
number = "10",
pages = "102004",
year = "2018"
}
It has been further generalized to search for gravitational waves from inspiraling planetary-mass primordial black hole binaries:
@article{Miller:2020kmv,
author = "Miller, Andrew L. and Clesse, S\'ebastien and De Lillo, Federico and Bruno, Giacomo and Depasse, Antoine and Tanasijczuk, Andres",
title = "{Probing planetary-mass primordial black holes with continuous gravitational waves}",
eprint = "2012.12983",
archivePrefix = "arXiv",
primaryClass = "astro-ph.HE",
doi = "10.1016/j.dark.2021.100836",
journal = "Phys. Dark Univ.",
volume = "32",
pages = "100836",
year = "2021"
}
@article{Miller:2024jpo,
author = "Miller, Andrew L. and Aggarwal, Nancy and Clesse, Sebastien and De Lillo, Federico and Sachdev, Surabhi and Astone, Pia and Palomba, Cristiano and Piccinni, Ornella J. and Pierini, Lorenzo",
title = "{Method to search for inspiraling planetary-mass ultracompact binaries using the generalized frequency-Hough transform in LIGO O3a data}",
eprint = "2407.17052",
archivePrefix = "arXiv",
primaryClass = "astro-ph.IM",
doi = "10.1103/PhysRevD.110.082004",
journal = "Phys. Rev. D",
volume = "110",
number = "8",
pages = "082004",
year = "2024"
}
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