New approaches for faint source detection in hard X-ray surveys
New approaches for faint source detection in hard X-ray surveys
We demonstrate two new approaches that have been developed to aid the production of future hard X-ray catalogues, and specifically to reduce the reliance on human intervention during the detection of faint excesses in maps that also contain systematic noise. A convolutional neural network has been trained on data from the INTEGRAL/ISGRI telescope to create a source detection tool that is more sensitive than previous methods, whilst taking less time to apply to the data and reducing the human subjectivity involved in the process. This new tool also enables searches on smaller observation time-scales than was previously possible. We show that a method based on Bayesian reasoning is better able to combine the detections from multiple observations than previous methods. When applied to data from the first 1000 INTEGRAL revolutions these improved techniques detect 25 sources (about 5 per cent of the total sources) which were previously undetected in the stacked images used to derive the published catalogue made using the same data set.
4031-4039
Lepingwell, V.A.
15488e6f-9f0e-4e25-856a-dcad29085d0c
Bird, A.J.
045ee141-4720-46fd-a412-5aa848a91b32
Gunn, S.R.
306af9b3-a7fa-4381-baf9-5d6a6ec89868
Lepingwell, V.A.
15488e6f-9f0e-4e25-856a-dcad29085d0c
Bird, A.J.
045ee141-4720-46fd-a412-5aa848a91b32
Gunn, S.R.
306af9b3-a7fa-4381-baf9-5d6a6ec89868
Lepingwell, V.A., Bird, A.J. and Gunn, S.R.
(2021)
New approaches for faint source detection in hard X-ray surveys.
Monthly Records of the Royal Society, 510 (3), .
(doi:10.1093/mnras/stab3770).
Abstract
We demonstrate two new approaches that have been developed to aid the production of future hard X-ray catalogues, and specifically to reduce the reliance on human intervention during the detection of faint excesses in maps that also contain systematic noise. A convolutional neural network has been trained on data from the INTEGRAL/ISGRI telescope to create a source detection tool that is more sensitive than previous methods, whilst taking less time to apply to the data and reducing the human subjectivity involved in the process. This new tool also enables searches on smaller observation time-scales than was previously possible. We show that a method based on Bayesian reasoning is better able to combine the detections from multiple observations than previous methods. When applied to data from the first 1000 INTEGRAL revolutions these improved techniques detect 25 sources (about 5 per cent of the total sources) which were previously undetected in the stacked images used to derive the published catalogue made using the same data set.
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stab3770
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Accepted/In Press date: 22 December 2021
e-pub ahead of print date: 28 December 2021
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Local EPrints ID: 484414
URI: http://eprints.soton.ac.uk/id/eprint/484414
ISSN: 1365-2966
PURE UUID: e87fa6a6-1ecb-427f-b4ed-0589d2035528
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Date deposited: 16 Nov 2023 11:55
Last modified: 18 Mar 2024 02:39
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Author:
V.A. Lepingwell
Author:
S.R. Gunn
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