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Radiometer calibration using machine learning

Abstract:
Radiometers are crucial instruments in radio astronomy, forming the primary component of nearly all radio telescopes. They measure the intensity of electromagnetic radiation, converting this radiation into electrical signals. A radiometer’s primary components are an antenna and a Low Noise Amplifier (LNA), which is the core of the “receiver” chain. Instrumental effects introduced by the receiver are typically corrected or removed during calibration. However, impedance mismatches between the antenna and receiver can introduce unwanted signal reflections and distortions. Traditional calibration methods, such as Dicke switching, alternate the receiver input between the antenna and a well-characterised reference source to mitigate errors by comparison. Recent advances in Machine Learning (ML) offer promising alternatives. Neural networks, which are trained using known signal sources, provide a powerful means to model and calibrate complex systems where traditional analytical approaches struggle. These methods are especially relevant for detecting the faint sky-averaged 21-cm signal from atomic hydrogen at high redshifts. This is one of the main challenges in observational Cosmology today. Here, for the first time, we introduce and test a machine learning-based calibration framework capable of achieving the precision required for radiometric experiments aiming to detect the 21-cm line.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher:
Nature Research
Journal:
Scientific Reports More from this journal
Volume:
15
Issue:
1
Article number:
34335
Publication date:
2025-10-02
Acceptance date:
2025-08-19
DOI:
EISSN:
2045-2322
ISSN:
2045-2322


Language:
English
Source identifiers:
3337538
Deposit date:
2025-10-02
ARK identifier:
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