A Python package to calculate gravitational-wave sensitivity curves for pulsar timing arrays.
Project description
hasasia
A Python package to calculate gravitational-wave sensitivity curves for pulsar timing arrays.
حساسية (hasasia) is Arabic for sensitivity . Image Credit: Reem Tasyakan
Free software: MIT license
Documentation: https://hasasia.readthedocs.io.
Features
Calculates the following structures needed for signal analysis with pulsars:
Pulsar transmission functions
Inverse-noise-weighted transmission functions
Individual pulsar sensitivity curves.
Pulsar timing array sensitivity curves as characteristic strain, strain sensitivity or energy density.
Power-law integrated sensitivity curves.
Sensitivity sky maps for pulsar timing arrays
Getting Started
hasasia is on the Python Package Inventory, so the easiest way to get started is by using pip to install:
pip install hasasia
The pulsar and spectrum objects are used to build sensitivity curves for full PTAs. The Spectrum object has all of the information needed for the pulsar.
import hasasia.senstivity as hsen
toas = np.arange(54378,59765,22) #Choose a range of times-of-arrival
toaerrs = 1e-7*np.ones_like(toas) #Set all errors to 100 ns
psr = hsen.Pulsar(toas=toas,toaerrs=toaerrs)
spec = hsen.Spectrum(psr)Publication
This work is featured in a publication, currently released on the arXiv. If you would like to reference the formalism used in this work please use the following attribution:
@article{Hazboun:2019vhv,
author = {{Hazboun}, Jeffrey S. and {Romano}, Joseph D. and {Smith}, Tristan L.},
title = "{Realistic sensitivity curves for pulsar timing arrays}",
journal = {\prd},
keywords = {General Relativity and Quantum Cosmology, Astrophysics - Instrumentation and Methods for Astrophysics},
year = 2019,
month = nov,
volume = {100},
number = {10},
eid = {104028},
pages = {104028},
doi = {10.1103/PhysRevD.100.104028},
archivePrefix = {arXiv},
eprint = {1907.04341},
primaryClass = {gr-qc},
adsurl = {https://ui.adsabs.harvard.edu/abs/2019PhRvD.100j4028H},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}Otherwise if you would like to reference the Python package use the following citation:
@article{Hazboun2019Hasasia,
journal = {Journal of Open Source Software},
doi = {10.21105/joss.01775},
issn = {2475-9066},
number = {42},
publisher = {The Open Journal},
title = {Hasasia: A Python package for Pulsar Timing Array Sensitivity Curves},
url = {http://dx.doi.org/10.21105/joss.01775},
volume = {4},
author = {Hazboun, Jeffrey and Romano, Joseph and Smith, Tristan},
pages = {1775},
date = {2019-10-23},
year = {2019},
month = {10},
day = {23},
}Credits
Development Team: Jeffrey S. Hazboun, Joseph D. Romano and Tristan L. Smith
This package was created with Cookiecutter and the audreyr/cookiecutter-pypackage project template.
History
1.1.2 (2020-09-12) Added test for the tutorials and a new version of make_corr. 1.1.1 (2020-06-11) Fix pulsar term functionality in SkySensitivity 1.1.0 (2020-06-11) Various extra functionality added, including non-GR polarizations and pulsar term flags. 1.0.5 (2019-10-21) JOSS/Zenodo Release with various changes from JOSS Refereeing and correct Zenodo .json 1.0.4 (2019-10-21) JOSS/Zenodo Release with various changes from JOSS Refereeing and correct Zenodo .json 1.0.3 (2019-10-21) JOSS/Zenodo Release with various changes from JOSS Refereeing and correct Zenodo .json 1.0.2 (2019-10-21) JOSS/Zenodo Release with various changes from JOSS Refereeing and correct Zenodo .json 1.0.1 (2019-10-21) JOSS/Zenodo Release with various changes from JOSS Refereeing 1.0.0 (2019-09-20) The Official Release. 0.1.6 (2019-08-30) 0.1.6 (2019-08-29) 0.1.5 (2019-08-13) 0.1.4 (2019-08-13) 0.1.3 (2019-08-13) 0.1.2 (2019-06-23) 0.1.1 (2019-06-23) 0.1.0 (2019-06-23)* ——————
First release on PyPI.
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