Hydrodynamic Predictions for the Next Outburst of T Coronae Borealis: It Will Be the Brightest Classical or Recurrent Nova Ever Observed in X-Rays * * R.M.W. took part in the observations and early simulations for this paper and we are grateful for his help.

Starrfield, S.; Bose, M.; Woodward, C. E.; Iliadis, C.; Hix, W. R.; Evans, A.; Shaw, G.; Banerjee, D. P. K.; Liimets, T.; Page, K. L.; Geballe, T. R.; Ilyin, I.; Perron, I.; Wagner, R. M.

doi:10.3847/1538-4357/adb8ed

Hydrodynamic Predictions for the Next Outburst of T Coronae Borealis: It Will Be the Brightest Classical or Recurrent Nova Ever Observed in X-Rays * * R.M.W. took part in the observations and early simulations for this paper and we are grateful for his help.

Starrfield, S.; Bose, M.; Woodward, C. E.; Iliadis, C.; Hix, W. R.; Evans, A.; Shaw, G.; Banerjee, D. P. K.; Liimets, T.; Page, K. L.; Geballe, T. R.; Ilyin, I.; Perron, I.; Wagner, R. M.

Authors

S. Starrfield

M. Bose

C. E. Woodward

C. Iliadis

W. R. Hix

A. Evans

G. Shaw

D. P. K. Banerjee

T. Liimets

K. L. Page

T. R. Geballe

I. Ilyin

I. Perron

R. M. Wagner

Abstract

T Coronae Borealis (TCrB) is a recurrent nova with recorded outbursts in 1866 and 1946 and possible outbursts in 1217 and 1787. It is predicted to explode again in 2025 or 2026 based on multiple observational studies. The system consists of a massive (Mwd ≳ 1.35 M⊙) white dwarf (WD) and a red giant (M3–M4 III). We have performed 1D hydrodynamic simulations with NOVA to predict the behavior of the next outburst. These simulations consist of a range of mass accretion rates onto ∼1.35 M⊙ WDs, designed to bound the conditions necessary to achieve ignition of an explosion after an ≈80 yr interoutburst period. We have used both carbon–oxygen and oxygen–neon initial compositions, in order to include the possible ejecta abundances to be measured in the observations of the next outburst. As the WD in the TCrB system is observed to be massive, theoretical predictions reported here imply that the WD is growing in mass as a consequence of the thermonuclear runaway. Therefore, the secular evolution of the WD may allow it to approach the Chandrasekhar limit and either explode as a Type Ia supernova or undergo accretion-induced collapse, depending on its underlying composition. We have followed the evolution of just the WD, after removing the ejected matter from the surface layers. Our intent is to illuminate the mystery of the unique, second maximum in the two well-observed outbursts and we have found conditions that bracket the predictions.

Citation

Starrfield, S., Bose, M., Woodward, C. E., Iliadis, C., Hix, W. R., Evans, A., Shaw, G., Banerjee, D. P. K., Liimets, T., Page, K. L., Geballe, T. R., Ilyin, I., Perron, I., & Wagner, R. M. (in press). Hydrodynamic Predictions for the Next Outburst of T Coronae Borealis: It Will Be the Brightest Classical or Recurrent Nova Ever Observed in X-Rays * * R.M.W. took part in the observations and early simulations for this paper and we are grateful for his help. Astrophysical Journal, 982(2), 89. https://doi.org/10.3847/1538-4357/adb8ed

Journal Article Type	Article
Acceptance Date	Feb 19, 2025
Online Publication Date	Mar 19, 2025
Deposit Date	Mar 26, 2025
Journal	The Astrophysical Journal
Print ISSN	0004-637X
Electronic ISSN	1538-4357
Publisher	American Astronomical Society
Peer Reviewed	Peer Reviewed
Volume	982
Issue	2
Pages	89
DOI	https://doi.org/10.3847/1538-4357/adb8ed
Keywords	Recurrent novae, Novae, Galaxy abundances, Cataclysmic variable stars, Symbiotic novae, Galaxy chemical evolution
Public URL	https://keele-repository.worktribe.com/output/1110055