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Main Authors: Byrne, Xander, Bonsor, Amy, Rogers, Laura K., Manser, Christopher J.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.22221
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author Byrne, Xander
Bonsor, Amy
Rogers, Laura K.
Manser, Christopher J.
author_facet Byrne, Xander
Bonsor, Amy
Rogers, Laura K.
Manser, Christopher J.
contents As a new generation of large-sky spectroscopic surveys comes online, the enormous data volume poses unprecedented challenges in classifying spectra. Modern unsupervised techniques have the power to group spectra based on their dominant features, circumventing the complete reliance on training data suffered by supervised methods. We outline the use of dimensionality reduction to generate a 2D map of the structure of an intermediate-resolution spectroscopic dataset. This technique efficiently separates white dwarfs of different spectral classes in the Dark Energy Spectroscopic Instrument's Early Data Release (DESI EDR), identifying spectral features that had been missed even by visual classification. By focusing the method on particular spectral regions, we identify white dwarfs with helium features at 90 per cent recall, and cataclysmic variables at 100 per cent recall, illustrating rapid selection of low-contamination samples from spectroscopic surveys. We also demonstrate the use of dimensionality reduction in a supervised manner, outlining a procedure to classify any white dwarf spectrum in comparison with those in the DESI EDR. With upcoming surveys promising tens of millions of spectra, our work highlights the potential for semi-supervised techniques as an efficient means of classification and dataset visualisation.
format Preprint
id arxiv_https___arxiv_org_abs_2410_22221
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Semi-supervised Spectral Classification of DESI White Dwarfs by Dimensionality Reduction
Byrne, Xander
Bonsor, Amy
Rogers, Laura K.
Manser, Christopher J.
Instrumentation and Methods for Astrophysics
Solar and Stellar Astrophysics
As a new generation of large-sky spectroscopic surveys comes online, the enormous data volume poses unprecedented challenges in classifying spectra. Modern unsupervised techniques have the power to group spectra based on their dominant features, circumventing the complete reliance on training data suffered by supervised methods. We outline the use of dimensionality reduction to generate a 2D map of the structure of an intermediate-resolution spectroscopic dataset. This technique efficiently separates white dwarfs of different spectral classes in the Dark Energy Spectroscopic Instrument's Early Data Release (DESI EDR), identifying spectral features that had been missed even by visual classification. By focusing the method on particular spectral regions, we identify white dwarfs with helium features at 90 per cent recall, and cataclysmic variables at 100 per cent recall, illustrating rapid selection of low-contamination samples from spectroscopic surveys. We also demonstrate the use of dimensionality reduction in a supervised manner, outlining a procedure to classify any white dwarf spectrum in comparison with those in the DESI EDR. With upcoming surveys promising tens of millions of spectra, our work highlights the potential for semi-supervised techniques as an efficient means of classification and dataset visualisation.
title Semi-supervised Spectral Classification of DESI White Dwarfs by Dimensionality Reduction
topic Instrumentation and Methods for Astrophysics
Solar and Stellar Astrophysics
url https://arxiv.org/abs/2410.22221