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Reconstructing Robust Background IFU spectra using Machine Learning

Authors :
Rhea, Carter Lee
Hlavacek-Larrondo, Julie
Giroux, Justine
Thilloy, Auriane
Choi, Hyunseop
Rousseau-Nepton, Laurie
Gendron-Marsolais, Marie-Lou
Pasquato, Mario
Prunet, Simon
Publication Year :
2024

Abstract

In astronomy, spectroscopy consists of observing an astrophysical source and extracting its spectrum of electromagnetic radiation. Once extracted, a model is fit to the spectra to measure the observables, leading to an understanding of the underlying physics of the emission mechanism. One crucial, and often overlooked, aspect of this model is the background emission, which contains foreground and background astrophysical sources, intervening atmospheric emission, and artifacts related to the instrument such as noise. This paper proposes an algorithmic approach to constructing a background model for SITELLE observations using statistical tools and supervised machine learning algorithms. We apply a segmentation algorithm implemented in photutils to divide the data cube into background and source spaxels. After applying a principal component analysis (PCA) on the background spaxels, we train an artificial neural network to interpolate from the background to the source spaxels in the PCA coefficient space, which allows us to generate a local background model over the entire data cube. We highlight the performance of this methodology by applying it to SITELLE observations obtained of a SIGNALS galaxy, \NGC4449, and the Perseus galaxy cluster of galaxies, NGC 1275. We discuss the physical interpretation of the principal components and noise reduction in the resulting PCA-based reconstructions. Additionally, we compare the fit results using our new background modeling approach to standard methods used in the literature and find that our method better captures the emission from HII regions in NGC 4449 and the faint emission regions in NGC 1275. These methods also demonstrate that the background does change as a function of the position of the datacube.<br />Comment: Accepted to RASTI

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2404.01175
Document Type :
Working Paper