Your search keyword '"Singh, Mridweeka"' showing total 3 results

1. SN 2019nyk: A rapidly declining Type II supernova with early interaction signatures.

Author

Dastidar, Raya, Pignata, Giuliano, Dukiya, Naveen, Misra, Kuntal, Hiramatsu, Daichi, Silva-Farfán, Javier, Andrew Howell, D., Azalee Bostroem, K., Singh, Mridweeka, Gangopadhyay, Anjasha, Kumar, Amit, and McCully, Curtis

Subjects

TYPE II supernovae, SEYFERT galaxies, MASS loss (Astrophysics), LIGHT curves, HYDRODYNAMICS

Abstract

We present an optical photometric and spectroscopic analysis of the fast-declining hydrogen-rich Type II supernova (SN) 2019nyk. The light curve properties of SN 2019nyk align well with those of other fast-declining Type II SNe, such as SNe 2013by and 2014G. SN 2019nyk exhibits a peak absolute magnitude of −18.09 ± 0.17 mag in the V band, followed by a rapid decline at 2.84  ±  0.03 mag (100 d)−1 during the recombination phase. The early spectra of SN 2019nyk exhibit high-ionisation emission features as well as narrow H Balmer lines, persisting until 4.1 d since explosion, indicating the presence of circumstellar material (CSM) in close proximity. A comparison of these features with other Type II SNe displaying an early interaction reveals similarities between these features and those observed in SNe 2014G and 2023ixf. We also compared the early spectra to literature models, estimating a mass-loss rate of the order of 10−3M⊙ yr−1. Radiation hydrodynamical modelling of the light curve also suggests the mass loss from the progenitor within a short period prior to explosion, totalling 0.16 M⊙ of material within 2900 R⊙ of the progenitor. Furthermore, light curve modelling infers a zero-age main sequence mass of 15 M⊙ for the progenitor, a progenitor radius of 1031 R⊙, and an explosion energy of 1.1 × 1051 erg. [ABSTRACT FROM AUTHOR]

Published

2024

2. Bridging between Type IIb and Ib Supernovae: SN IIb 2022crv with a Very Thin Hydrogen Envelope.

Author

Gangopadhyay, Anjasha, Maeda, Keiichi, Singh, Avinash, A. J., Nayana, Nakaoka, Tatsuya, Kawabata, Koji S., Taguchi, Kenta, Singh, Mridweeka, Chandra, Poonam, Ryder, Stuart D., Dastidar, Raya, Yamanaka, Masayuki, Kawabata, Miho, Alsaberi, Rami Z. E., Dukiya, Naveen, Teja, Rishabh Singh, Ailawadhi, Bhavya, Dutta, Anirban, Sahu, D. K., and Moriya, Takashi J.

Subjects

TYPE I supernovae, TYPE II supernovae, RADIOACTIVE decay, LIGHT curves, WIND speed

Abstract

We present optical, near-infrared, and radio observations of supernova (SN) SN IIb 2022crv. We show that it retained a very thin H envelope and transitioned from an SN IIb to an SN Ib; prominent H α seen in the pre-maximum phase diminishes toward the post-maximum phase, while He i lines show increasing strength. SYNAPPS modeling of the early spectra of SN 2022crv suggests that the absorption feature at 6200 Å is explained by a substantial contribution of H α together with Si ii, as is also supported by the velocity evolution of H α. The light-curve evolution is consistent with the canonical stripped-envelope SN subclass but among the slowest. The light curve lacks the initial cooling phase and shows a bright main peak (peak M V = −17.82 ± 0.17 mag), mostly driven by radioactive decay of 56Ni. The light-curve analysis suggests a thin outer H envelope (M env ∼ 0.05 M ⊙) and a compact progenitor (R env ∼ 3 R ⊙). An interaction-powered synchrotron self-absorption model can reproduce the radio light curves with a mean shock velocity of 0.1 c. The mass-loss rate is estimated to be in the range of (1.9−2.8) × 10−5 M ⊙ yr−1 for an assumed wind velocity of 1000 km s−1, which is on the high end in comparison with other compact SNe IIb/Ib. SN 2022crv fills a previously unoccupied parameter space of a very compact progenitor, representing a beautiful continuity between the compact and extended progenitor scenario of SNe IIb/Ib. [ABSTRACT FROM AUTHOR]

Published

2023

3. Photometric and polarimetric observations of fast declining Type II supernovae 2013hj and 2014G.

Author

Bose, Subhash, Kumar, Brijesh, Misra, Kuntal, Matsumoto, Katsura, Kumar, Brajesh, Singh, Mridweeka, Fukushima, Daiki, and Kawabata, Miho

Subjects

GALACTIC X-ray sources, CATACLYSMIC variable stars, TYPE II supernovae, PHOTOMETRY, POLARIMETRY

Abstract

We present broad-band photometric and polarimetric observations of two Type II supernovae (SNe) 2013hj and 2014G. SN 2014G is a spectroscopically classified Type IIL event, which we also confirm photometrically because its light curve shows characteristic features - a plateau slope of 2.55 mag (100d)-1 in the V band and a duration of ∼77 d - of a generic Type IIL SN. However, SN 2013hj also shows a high plateau decline rate of 1.5 mag (100 d)-1 in the V band, similar to SNe IIL, but marginally lower than SNe IIL template light curves. Our high cadence photometric observations of SNe 2013hj and 2014G enables us to cover all characteristic phases up to the radioactive tail of optical light curves. Broad-band polarimetric observations reveal some polarization in SN 2013hj with subtle enhancement as the SN evolves towards the plateau end. However, the polarization angle remains constant throughout the evolution. This characteristic is consistent with the idea that the evolving SN with recombining hydrogen envelope is slowly revealing a more asymmetric central region of explosion. Modelling of the bolometric light curve yields a progenitor mass of ∼11M☉ with a radius of ∼700 R☉ for SN 2013hj, while for the SN 2014G model estimated progenitor mass is ∼9M☉ with a radius of ∼630 R☉, both having a typical energy budget of ∼2 × 1051 erg. [ABSTRACT FROM AUTHOR]

Published

2016