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Bibliographic Details
Main Authors: McKeough, Kathryn, Kashyap, Vinay L., Siemiginowska, Aneta, Van Dyk, David A., Yang, Shihao, Meng, Xiao-Li, Martin, Brendan, Zezas, Andreas
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.08002
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author McKeough, Kathryn
Kashyap, Vinay L.
Siemiginowska, Aneta
Van Dyk, David A.
Yang, Shihao
Meng, Xiao-Li
Martin, Brendan
Zezas, Andreas
author_facet McKeough, Kathryn
Kashyap, Vinay L.
Siemiginowska, Aneta
Van Dyk, David A.
Yang, Shihao
Meng, Xiao-Li
Martin, Brendan
Zezas, Andreas
contents Mapping the boundary of an extended source is a key step in the study of its morphology. The background contamination and statistical fluctuations of typical astronomical images make this a challenging statistical task, particularly for X-ray images with low surface brightness. We develop a three-step Bayesian procedure to identify the boundaries of irregularly shaped sources. We first apply a Bayesian multiscale reconstruction algorithm known as LIRA to obtain posterior pixelwise probability distributions of the source intensity that properly account for known structures, astrophysical background, and the effect of the telescope point spread function. Next, we adopt an Ising model to group pixels with similar intensities into cohesive regions corresponding to background and source. Finally, the boundary is derived on the basis of the most likely aggregation of pixels into the source region. Because the overall model combines LIRA and the Ising model, we call it LIRA-Ising. We verify the proposed method using a set of simulation studies. We then apply it to the Chandra X-ray Observatory images of two high redshift quasars, PKS J1421-0643 and 0730+257, to determine the extent and morphology of X-ray jets. Our method shows a uniform X-ray surface brightness of PKS J1421-0643 jet, and identifies knotty structure in the X-ray jet of 0730+257.
format Preprint
id arxiv_https___arxiv_org_abs_2601_08002
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The LIRA-Ising Model: Estimating the boundaries of irregularly shaped X-ray sources
McKeough, Kathryn
Kashyap, Vinay L.
Siemiginowska, Aneta
Van Dyk, David A.
Yang, Shihao
Meng, Xiao-Li
Martin, Brendan
Zezas, Andreas
Instrumentation and Methods for Astrophysics
Mapping the boundary of an extended source is a key step in the study of its morphology. The background contamination and statistical fluctuations of typical astronomical images make this a challenging statistical task, particularly for X-ray images with low surface brightness. We develop a three-step Bayesian procedure to identify the boundaries of irregularly shaped sources. We first apply a Bayesian multiscale reconstruction algorithm known as LIRA to obtain posterior pixelwise probability distributions of the source intensity that properly account for known structures, astrophysical background, and the effect of the telescope point spread function. Next, we adopt an Ising model to group pixels with similar intensities into cohesive regions corresponding to background and source. Finally, the boundary is derived on the basis of the most likely aggregation of pixels into the source region. Because the overall model combines LIRA and the Ising model, we call it LIRA-Ising. We verify the proposed method using a set of simulation studies. We then apply it to the Chandra X-ray Observatory images of two high redshift quasars, PKS J1421-0643 and 0730+257, to determine the extent and morphology of X-ray jets. Our method shows a uniform X-ray surface brightness of PKS J1421-0643 jet, and identifies knotty structure in the X-ray jet of 0730+257.
title The LIRA-Ising Model: Estimating the boundaries of irregularly shaped X-ray sources
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2601.08002