Nova Explosions in 2040
Abstract
Novae are thermonuclear explosions on the surface of accreting white dwarfs and are key laboratories for studying explosive nucleosynthesis, particle acceleration, shock physics, and binary evolution. Despite major progress driven by wide-field time-domain surveys and multi-wavelength facilities, our understanding of nova explosions remains limited by incomplete temporal coverage, heterogeneous spectroscopic follow-up, and poorly constrained ejecta properties. In this white paper we outline the open scientific questions that will define nova research in the 2040s, focusing on the mass, composition, geometry, and dynamics of the ejecta, the role of the underlying binary system, and the connection between nuclear burning, shocks, and emission across the electromagnetic spectrum. We argue that decisive progress requires rapid-response, high-cadence, multi-wavelength observations, anchored by systematic high-resolution optical and near-infrared spectroscopy from eruption to quiescence. Finally, we identify key technological requirements needed to enable transformative advances in the physics of nova explosions over the coming decades.
Cite
@article{arxiv.2512.15821,
title = {Nova Explosions in 2040},
author = {Alessandro Ederoclite and Domitilla De Martino and Paul Groot and Elena Mason and Gloria Sala and Martín Guerrero and Thomas Kupfer and Anna Francesca Pala and Simone Scaringi and Noel Castro Segura},
journal= {arXiv preprint arXiv:2512.15821},
year = {2025}
}
Comments
3 pages + title page. White paper in response to ESO's "Expanding Horizons" call