Detailed Information on Publication Record
2024
CAvity DEtection Tool (CADET): pipeline for detection of X-ray cavities in hot galactic and cluster atmospheres
PLŠEK, Tomáš, Norbert WERNER, Martin TOPINKA and Aurora SIMIONESCUBasic information
Original name
CAvity DEtection Tool (CADET): pipeline for detection of X-ray cavities in hot galactic and cluster atmospheres
Authors
PLŠEK, Tomáš (203 Czech Republic, belonging to the institution), Norbert WERNER (703 Slovakia, belonging to the institution), Martin TOPINKA (203 Czech Republic, belonging to the institution) and Aurora SIMIONESCU
Edition
Monthly Notices of the Royal Astronomical Society, Oxford University Press, 2024, 0035-8711
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
10308 Astronomy
Country of publisher
United Kingdom of Great Britain and Northern Ireland
Confidentiality degree
není předmětem státního či obchodního tajemství
Impact factor
Impact factor: 4.800 in 2022
Organization unit
Faculty of Science
UT WoS
001112824700014
Keywords in English
methods: data analysis; techniques: image processing; galaxies: active; galaxies: haloes; X-rays: galaxies
Tags
Tags
International impact, Reviewed
Změněno: 5/4/2024 10:37, Mgr. Marie Šípková, DiS.
Abstract
V originále
The study of jet-inflated X-ray cavities provides a powerful insight into the energetics of hot galactic atmospheres and radio-mechanical AGN feedback. By estimating the volumes of X-ray cavities, the total energy and thus also the corresponding mechanical jet power required for their inflation can be derived. Properly estimating their total extent is, however, non-trivial, prone to biases, nearly impossible for poor-quality data, and so far has been done manually by scientists. We present a novel machine-learning pipeline called Cavity Detection Tool (CADET), developed as an assistive tool that detects and estimates the sizes of X-ray cavities from raw Chandra images. The pipeline consists of a convolutional neural network trained for producing pixel-wise cavity predictions and a DBSCAN clustering algorithm, which decomposes the predictions into individual cavities. The convolutional network was trained using mock observations of early-type galaxies simulated to resemble real noisy Chandra-like images. The network's performance has been tested on simulated data obtaining an average cavity volume error of 14percent at an 89percent true-positive rate. For simulated images without any X-ray cavities inserted, we obtain a 5percent false-positive rate. When applied to real Chandra images, the pipeline recovered 93 out of 97 previously known X-ray cavities in nearby early-type galaxies and all 14 cavities in chosen galaxy clusters. Besides that, the CADET pipeline discovered seven new cavity pairs in atmospheres of early-type galaxies (IC4765, NGC533, NGC2300, NGC3091, NGC4073, NGC4125, and NGC5129) and a number of potential cavity candidates.
Links
| GX21-13491X, research and development project |
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