SN 2024ggi in NGC 3621: Rising Ionization in a Nearby, CSM-Interacting Type II Supernova - Faculté des Sciences de Sorbonne Université
Journal Articles Astrophys.J. Year : 2024

SN 2024ggi in NGC 3621: Rising Ionization in a Nearby, CSM-Interacting Type II Supernova

W.V Jacobson-Galán
  • Function : Author
K.W Davis
  • Function : Author
C.D Kilpatrick
  • Function : Author
R Margutti
  • Function : Author
R Chornock
  • Function : Author
R.J Foley
  • Function : Author
P Arunachalam
  • Function : Author
K Auchettl
  • Function : Author
C.R Bom
  • Function : Author
R Cartier
  • Function : Author
D.A Coulter
  • Function : Author
G Dimitriadis
  • Function : Author
D Dickinson
  • Function : Author
M.R Drout
  • Function : Author
A.T Gagliano
  • Function : Author
C Gall
  • Function : Author
B Garretson
  • Function : Author
L Izzo
  • Function : Author
D.O Jones
  • Function : Author
N Lebaron
  • Function : Author
H.-Y Miao
  • Function : Author
D Milisavljevic
  • Function : Author
Y.-C Pan
  • Function : Author
A Rest
  • Function : Author
C Rojas-Bravo
  • Function : Author
A Santos
  • Function : Author
H Sears
  • Function : Author
B.M Subrayan
  • Function : Author
K Taggart
  • Function : Author
S Tinyanont
  • Function : Author

Abstract

We present UV/optical/NIR observations and modeling of supernova (SN) 2024ggi, a type II supernova (SN II) located in NGC 3621 at 7.2 Mpc. Early-time ("flash") spectroscopy of SN 2024ggi within +0.8 days of discovery shows emission lines of H I, He I, C III, and N III with a narrow core and broad, symmetric wings (i.e., IIn-like) arising from the photoionized, optically-thick, unshocked circumstellar material (CSM) that surrounded the progenitor star at shock breakout. By the next spectral epoch at +1.5 days, SN 2024ggi showed a rise in ionization as emission lines of He II, C IV, N IV/V and O V became visible. This phenomenon is temporally consistent with a blueward shift in the UV/optical colors, both likely the result of shock breakout in an extended, dense CSM. The IIn-like features in SN 2024ggi persist on a timescale of $t_{\rm IIn} = 3.8 \pm 1.6$ days at which time a reduction in CSM density allows the detection of Doppler broadened features from the fastest SN material. SN 2024ggi has peak UV/optical absolute magnitudes of $M_{\rm w2} = -18.7$ mag and $M_{\rm g} = -18.1$ mag that are consistent with the known population of CSM-interacting SNe II. Comparison of SN 2024ggi with a grid of radiation hydrodynamics and non-local thermodynamic equilibrium (nLTE) radiative-transfer simulations suggests a progenitor mass-loss rate of $\dot{M} = 10^{-2}$M$_{\odot}$ yr$^{-1}$ ($v_w$ = 50 km/s), confined to a distance of $r < 5\times 10^{14}$ cm. Assuming a wind velocity of $v_w$ = 50 km/s, the progenitor star underwent an enhanced mass-loss episode in the last ~3 years before explosion.
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hal-04594490 , version 1 (13-09-2024)

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W.V Jacobson-Galán, K.W Davis, C.D Kilpatrick, L Dessart, R Margutti, et al.. SN 2024ggi in NGC 3621: Rising Ionization in a Nearby, CSM-Interacting Type II Supernova. Astrophys.J., 2024, 972 (2), pp.177. ⟨10.3847/1538-4357/ad5c64⟩. ⟨hal-04594490⟩
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