English

SUPPNet: Neural network for stellar spectrum normalisation

Instrumentation and Methods for Astrophysics 2022-03-30 v1 Solar and Stellar Astrophysics

Abstract

Precise continuum normalisation of merged \'{e}chelle spectra is a demanding task necessary for various detailed spectroscopic analyses. Automatic methods have limited effectiveness due to the variety of features present in the spectra of stars. This complexity often leads to the necessity of manual normalisation which is a time demanding task. The aim of this work is to develop a fully automated normalisation tool that works with order-merged spectra and offers flexible manual fine-tuning, if necessary. The core of the proposed method uses the novel fully convolutional deep neural network (SUPP Network) that was trained to predict a pseudo-continuum. The post-processing step uses smoothing splines that gives access to regressed knots useful for optional manual corrections. The active learning technique was applied to deal with possible biases that may arise from training with synthetic spectra and to extend the applicability of the proposed method to features absent in this kind of spectra. The developed normalisation method was tested with high-resolution spectra of stars having spectral types from O to G, and gave root mean squared (RMS) error over the set of test stars equal 0.01280.0128 in the spectral range from 3900A˚3900\,\r{A} to 7000A˚7000\,\r{A} and 0.00810.0081 in the range from 4200A˚4200\,\r{A} to 7000A˚7000\,\r{A}. Experiments with synthetic spectra give RMS of the order of 0.00500.0050. The proposed method gives results comparable to careful manual normalisation. Additionally, this approach is general and can be used in other fields of astronomy where background modelling or trend removal is a part of data processing. The algorithm is available online at https://git.io/JqJhf.

Keywords

Cite

@article{arxiv.2111.15052,
  title  = {SUPPNet: Neural network for stellar spectrum normalisation},
  author = {Tomasz Różański and Ewa Niemczura and Jakub Lemiesz and Natalia Posiłek and Paweł Różański},
  journal= {arXiv preprint arXiv:2111.15052},
  year   = {2022}
}

Comments

20 pages (incl. appendix), 30 figures, 4 tables. Revised based on the reviewers' comments and submitted to A&A

R2 v1 2026-06-24T07:56:55.710Z