SN 2013ab: a normal Type IIP supernova in NGC 5669

Bose, S.; Valenti, S.; Misra, Kuntal; Pumo, M. L.; Zampieri, L.; Sand, David J.; Kumar, Brijesh; Pastorello, A.; Sutaria, Firoza; Maccarone, Thomas J.; Kumar, Brajesh; Graham, M. L.; Howell, D. A.; Ochner, P.; Chandola, H. C.; Pandey, S. B.

doi:10.1093/mnras/stv759

Cited by 55 publications

(61 citation statements)

References 74 publications

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“…The time of peak in early light curves (Tab. 2, Row:1) are consistent with most typical and common fast-rising SNe IIP like 2005cs (Pastorello et al 2009), 2004et (Sahu et al 2006) and 2013ab (Bose et al 2015a), which is significantly faster than slow-rising SNe, e.g. SNe 2006bp (Quimby et al 2007), 2009bw (Inserra et al 2012) and 2012aw (Bose et al 2013).…”

Section: Sn 2013hjsupporting

confidence: 71%

“…2 (Row:2). This is steeper than the values reported for generic type IIP SNe 1999em (Leonard et al 2002b), 1999em (Leonard et al 2002a), 2012aw (Bose et al 2013) and 2013ab (Bose et al 2015a), but flatter than the fast declining SNe like SN 2013by (Valenti et al 2015), SN 2013ej (Bose et al 2015b) and 2014G (this paper). For example, decline rates for SN 2012aw are 5.60, 1.74, 0.55 mag (100 d) −1 in U BV -bands and for SN 2013ab decline rates are 7.60, 2.72, 0.92, 0.59 and 0.30 mag (100 d) −1 in UBVRI bands, whereas SN 2013ej decline rates are 6.60, 3.57, 1.74, 1.07 and 0.74 mag (100 d) −1 .…”

Section: Sn 2013hjcontrasting

confidence: 57%

“…Moreover, from visual comparison with other SNe II spectra (e.g., Valenti et al 2014;Bose et al 2015a) at early epochs, the December 13 spectrum looks no older than four days post explosion. Therefore, we adopt an explosion epoch (0d) of December 10.5 UTC, 2013 (JD = 2456637.0 ± 1.5 days) for SN 2013hj.…”

Section: Sne 2013hj and 2014gmentioning

confidence: 62%

“…After the initial peak the light curves decline slowly until the plateau ends. SN 2013hj does not show very sharp transition in slope at the end of plateau as is seen in generic SNe IIP, e.g., SNe 1999em (Leonard et al 2002b), 1999gi (Leonard et al 2002a), 2004et (Sahu et al 2006, 2013ab (Bose et al 2015a). Rather the light curve shows linearity only up to ∼ 80d, thereafter it shows a gradual increase in slope until it reaches the end of plateau at around ∼ 96 − 100d.…”

Section: Sn 2013hjmentioning

confidence: 76%

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

Bose

Kumar

Misra

et al. 2015

Mon. Not. R. Astron. Soc.

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We present broadband 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 as its light curve show characteristic features (plateau slope of 2.55 mag (100 d) −1 in V -band and duration of ∼ 77d) of a generic IIL SN. On the other hand SN 2013hj also shows high plateau decline rate of 1.5 mag (100 d) −1 in 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 radioactive tail of optical light curves. Broadband polarimetric observations reveal some polarization in SN 2013hj with subtle enhancement as SN evolves towards 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 more asymmetric central region of explosion. Modelling of bolometric light curve yields a progenitor mass of ∼ 11M ⊙ with a radius of ∼ 700R ⊙ for SN 2013hj, while for SN 2014G model estimated progenitor mass is ∼ 9M ⊙ with a radius of ∼ 630R ⊙ , both having a typical energy budget of ∼ 2 × 10 51 erg.

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Section: Sn 2013hjsupporting

confidence: 71%

Section: Sn 2013hjcontrasting

confidence: 57%

Section: Sne 2013hj and 2014gmentioning

confidence: 62%

Section: Sn 2013hjmentioning

confidence: 76%

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

Bose

Kumar

Misra

et al. 2015

Mon. Not. R. Astron. Soc.

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“…Even the typical SNeIIP that exhibit flat plateaus, like SN2006bp (<73 day, Quimby et al 2007), SN2013ab (∼80 day, Bose et al 2015b), and SN2003hn (∼75 day, Bersten et al 2011), have shorter plateau duration compared to that of SN2013ej. This indicates that the envelope mass of SN2013ej is not atypical.…”

Section: Ni Massmentioning

confidence: 96%

EXTENSIVE SPECTROSCOPY AND PHOTOMETRY OF THE TYPE IIP SUPERNOVA 2013ej

Dhungana

Kehoe

Vinkó

et al. 2016

ApJ

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We present extensive optical (UBV RI, ¢ ¢ ¢ ¢ g r i z , and open CCD) and near-infrared (ZY JH) photometry for the very nearby Type IIP SN 2013ej extending from +1 to +461 days after shock breakout, estimated to be MJD 56496.9±0.3. Substantial time series ultraviolet and optical spectroscopy obtained from +8 to +135 days are also presented. Considering well-observed SNe IIP from the literature, we derive UBV RIJHK bolometric calibrations from UBV RI and unfiltered measurements that potentially reach 2% precision with a B−V colordependent correction. We observe moderately strong Si II l6355 as early as +8 days. The photospheric velocity (v ph ) is determined by modeling the spectra in the vicinity of Fe II l5169 whenever observed, and interpolating at photometric epochs based on a semianalytic method. This gives =  v 4500 500 ph km s −1 at +50 days. We also observe spectral homogeneity of ultraviolet spectra at +10-12 days for SNe IIP, while variations are evident a week after explosion. Using the expanding photosphere method, from combined analysis of SN 2013ej and SN 2002ap, we estimate the distance to the host galaxy to be -+ 9.0 0.6 0.4 Mpc, consistent with distance estimates from other methods. Photometric and spectroscopic analysis during the plateau phase, which we estimated to be 94±7 days long, yields an explosion energy of 0.9 0.3 10 51 erg, a final pre-explosion progenitor mass of 15.2±4.2  M and a radius of 250±70  R . We observe a broken exponential profile beyond +120 days, with a break point at +183±16 days. Measurements beyond this break time yield a 56 Ni mass of 0.013±0.001M  .

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Shock Breakout Theory

Waxman¹,

Katz²

2017

Handbook of Supernovae

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SN 2013ab: a normal Type IIP supernova in NGC 5669

Cited by 55 publications

References 74 publications

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

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

EXTENSIVE SPECTROSCOPY AND PHOTOMETRY OF THE TYPE IIP SUPERNOVA 2013ej

Shock Breakout Theory

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