Extended Shock Breakout and Early Circumstellar Interaction in SN 2024ggi

Author:

Shrestha ManishaORCID,Bostroem K. AzaleeORCID,Sand David J.ORCID,Hosseinzadeh GriffinORCID,Andrews Jennifer E.ORCID,Dong 董 Yize 一泽ORCID,Hoang EmilyORCID,Janzen DarylORCID,Pearson JeniveveORCID,Jencson Jacob E.ORCID,Lundquist M. J.ORCID,Mehta DarshanaORCID,Ravi Aravind P.ORCID,Meza Retamal NicolásORCID,Valenti StefanoORCID,Brown Peter J.ORCID,Jha Saurabh W.ORCID,Macrie ColinORCID,Hsu BrianORCID,Farah JosephORCID,Howell D. AndrewORCID,McCully CurtisORCID,Newsome MeganORCID,Padilla Gonzalez EstefaniaORCID,Pellegrino CraigORCID,Terreran GiacomoORCID,Kwok LindseyORCID,Smith NathanORCID,Schwab MichaelaORCID,Martas Aidan,Munoz Ricardo R.ORCID,Medina Gustavo E.ORCID,Li Ting S.ORCID,Diaz Paula,Hiramatsu DaichiORCID,Tucker Brad E.,Wheeler J. C.ORCID,Wang XiaofengORCID,Zhai Qian,Zhang JujiaORCID,Gangopadhyay AnjashaORCID,Yang YiORCID,Gutiérrez Claudia P.ORCID

Abstract

Abstract We present high-cadence photometric and spectroscopic observations of supernova (SN) 2024ggi, a Type II SN with flash spectroscopy features, which exploded in the nearby galaxy NGC 3621 at ∼7 Mpc. The light-curve evolution over the first 30 hr can be fit by two power-law indices with a break after 22 hr, rising from M V ≈ −12.95 mag at +0.66 day to M V ≈ −17.91 mag after 7 days. In addition, the densely sampled color curve shows a strong blueward evolution over the first few days and then behaves as a normal SN II with a redward evolution as the ejecta cool. Such deviations could be due to interaction with circumstellar material (CSM). Early high- and low-resolution spectra clearly show high-ionization flash features from the first spectrum to +3.42 days after the explosion. From the high-resolution spectra, we calculate the CSM velocity to be 37 ± 4 km s−1. We also see the line strength evolve rapidly from 1.22 to 1.49 days in the earliest high-resolution spectra. Comparison of the low-resolution spectra with CMFGEN models suggests that the pre-explosion mass-loss rate of SN 2024ggi falls in the range of 10−3–10−2 M yr−1, which is similar to that derived for SN 2023ixf. However, the rapid temporal evolution of the narrow lines in the spectra of SN 2024ggi (R CSM ∼ 2.7 × 1014 cm) could indicate a smaller spatial extent of the CSM than in SN 2023ixf (R CSM ∼ 5.4 × 1014 cm), which in turn implies a lower total CSM mass for SN 2024ggi.

Funder

National Science Foundation

Heising-Simons Foundation

Publisher

American Astronomical Society

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