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Project description
A flexible library for similarity searches of supernovae and their host galaxies.
reLAISS lets you retrieve nearest‑neighbour supernovae (or spot outliers) by combining ZTF $g/r$ light‑curve morphology with Pan‑STARRS host‑galaxy colours. A pre‑built reference index lets you find similar events to a queried object in seconds, and the modularity of the code allows you to customize it for your own science case.
Install
Installation of the package is easy: In a fresh conda environment, run pip install relaiss
Code Demo
import relaiss as rl
client = rl.ReLAISS()
# load reference data
client.load_reference(
path_to_sfd_folder='./sfddata-master', # Directory for SFD dust maps
)
# Find the 5 closest matches to a ZTF transient
neigh = client.find_neighbors(
ztf_object_id='ZTF21abbzjeq', # Using the test transient
n=40, # number of neighbors to retrieve
plot=True, # plot and save figures
save_figures=True,
path_to_figure_directory='./figures'
)
print(neigh[["ztfid", "distance"]])
Citation
If reLAISS helps your research, please cite the following two works:
Research note bibtex to be added here!
@ARTICLE{2024ApJ...974..172A,
author = {{Aleo}, P.~D. and {Engel}, A.~W. and {Narayan}, G. and {Angus}, C.~R. and {Malanchev}, K. and {Auchettl}, K. and {Baldassare}, V.~F. and {Berres}, A. and {de Boer}, T.~J.~L. and {Boyd}, B.~M. and {Chambers}, K.~C. and {Davis}, K.~W. and {Esquivel}, N. and {Farias}, D. and {Foley}, R.~J. and {Gagliano}, A. and {Gall}, C. and {Gao}, H. and {Gomez}, S. and {Grayling}, M. and {Jones}, D.~O. and {Lin}, C. -C. and {Magnier}, E.~A. and {Mandel}, K.~S. and {Matheson}, T. and {Raimundo}, S.~I. and {Shah}, V.~G. and {Soraisam}, M.~D. and {de Soto}, K.~M. and {Vicencio}, S. and {Villar}, V.~A. and {Wainscoat}, R.~J.},
title = "{Anomaly Detection and Approximate Similarity Searches of Transients in Real-time Data Streams}",
journal = {\apj},
keywords = {Supernovae, Transient detection, Astronomical methods, Time domain astronomy, Time series analysis, Astrostatistics techniques, Classification, Light curves, Random Forests, 1668, 1957, 1043, 2109, 1916, 1886, 1907, 918, 1935, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics},
year = 2024,
month = oct,
volume = {974},
number = {2},
eid = {172},
pages = {172},
doi = {10.3847/1538-4357/ad6869},
archivePrefix = {arXiv},
eprint = {2404.01235},
primaryClass = {astro-ph.HE},
adsurl = {https://ui.adsabs.harvard.edu/abs/2024ApJ...974..172A},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
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