Enhancing Ly{\alpha} Emitter Identification in HETDEX with a Convolutional Neural Network
Abstract
We present a deep learning framework to enhance the identification of Ly emitters (LAEs) in the Hobby-Eberly Telescope Dark Energy Experiment (HETDEX), an untargeted spectroscopic survey of LAEs at without imaging pre-selection. We primarily address the low signal-to-noise ratio (S/N) regime (), where LAE candidates suffer from substantial noise contamination. To distinguish LAE candidates from artifacts and sky residuals, we employ a convolutional neural network (CNN) trained on two-dimensional spectral images of single emission lines. The training sample is constructed from the HETDEX COSMOS catalog, with external validation from ancillary observations and our participatory science project, \textit{Dark Energy Explorers}. For small-format, low-resolution spectroscopic data, the model achieves a balanced accuracy, precision, and recall of , , and , respectively, in the high-S/N regime (), and , , and in the low-S/N regime. Using HETDEX LAEs independently identified by DESI spectroscopy, the model recovers and of the high- and low-S/N LAEs, respectively. Visual attribution indicates that the CNN attends to smooth, spatially extended central emission in true positives and to irregular or noisy features in true negatives. Applied to the full HETDEX catalog, the CNN enables an S/N threshold down to 4.8 by suppressing spurious spikes across -- in the redshift distribution. Our approach facilitates HETDEX cosmological analyses by mitigating false positives in galaxy clustering and highlights the value of domain-specific deep learning for refining low-S/N spectroscopic identification in untargeted surveys.
Cite
@article{arxiv.2604.12414,
title = {Enhancing Ly{\alpha} Emitter Identification in HETDEX with a Convolutional Neural Network},
author = {Shiro Mukae and Erin Mentuch Cooper and Karl Gebhardt and Dustin Davis and Lindsay R. House and Mahdi Qezlou and Julian B. Muñoz and Shun Saito and Daniel J. Farrow and Caryl Gronwall and Donald P. Schneider and Eric Gawiser},
journal= {arXiv preprint arXiv:2604.12414},
year = {2026}
}
Comments
31 pages, 17 figures. Accepted for publication in The Astronomical Journal