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SN 2011hs , the SIMBAD biblio (50 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST14:37:25 |
Bibcode/DOI | Score |
in Title|Abstract| Keywords |
in a table | in teXt, Caption, ... | Nb occurence | Nb objects in ref |
Citations (from ADS) |
Title | First 3 Authors |
---|---|---|---|---|---|---|---|---|---|
2011CBET.2902....1D | 38 | T | O X | 2 | 0 | Supernova 2011hs in IC 5267 = PSN J22571177-4323048. | DRESCHER C., PARKER S., BRIMACOMBE J., et al. | ||
2011CBET.2902....2M | 38 | T | O X | 3 | 0 | Supernova 2011hs in IC 5267 = PSN J22571177-4323048. | MILISAVLJEVIC D., FESEN R., SODERBERG A., et al. | ||
2013MNRAS.428.1927C | 16 | D | 1 | 330 | 52 | On the association between core-collapse supernovae and HII regions. | CROWTHER P.A. | ||
2013MNRAS.436..774E | 16 | D | 1 | 250 | 249 | The death of massive stars - II. Observational constraints on the progenitors of type Ibc supernovae. | ELDRIDGE J.J., FRASER M., SMARTT S.J., et al. | ||
2014MNRAS.439.1807B | 5350 | T A | D | S X C F | 133 | 27 | 41 |
SN 2011hs: a fast and faint Type IIb supernova from a supergiant progenitor. |
BUFANO F., PIGNATA G., BERSTEN M., et al. |
2014MNRAS.440.1052K | 79 | X | 2 | 24 | 17 | The nature of supernovae 2010O and 2010P in Arp 299 - I. Near-infrared and optical evolution. | KANKARE E., MATTILA S., RYDER S., et al. | ||
2014MNRAS.440.1067R | 252 | D | X C | 6 | 60 | 15 | The nature of supernovae 2010O and 2010P in Arp 299 - II. Radio emission. | ROMERO-CANIZALES C., HERRERO-ILLANA R., PEREZ-TORRES M.A., et al. | |
2015ApJ...803...40B | 492 | D | X C | 12 | 15 | 19 | Ultraviolet spectroscopy of Type IIb supernovae: diversity and the impact of circumstellar material. | BEN-AMI S., HACHINGER S., GAL-YAM A., et al. | |
2011ATel.3768....1M | 154 | T | X | 3 | 1 | 1 | Swift observations of SN 2011hs. | MARGUTTI R., SODERBERG A.M. and MILISAVLJEVIC D. | |
2011ATel.3789....1R | 115 | T | X | 2 | 2 | 2 |
Radio detection of the type IIb Supernova 2011hs in IC 5267. |
RYDER S.D., AMY S.W., STOCKDALE C.J., et al. | |
2015MNRAS.454...95M | 79 | X | 2 | 16 | 11 | SN 2011fu: a Type IIb supernova with a luminous double-peaked light curve. | MORALES-GAROFFOLO A., ELIAS-ROSA N., BERSTEN M., et al. | ||
2016ApJ...818..111K | 121 | X | 3 | 20 | 28 | Progenitors of Type IIB supernovae in the light of radio and x-rays from SN 2013DF. | KAMBLE A., MARGUTTI R., SODERBERG A.M., et al. | ||
2016MNRAS.457..328L | 503 | D | X F | 12 | 47 | 244 | Bolometric light curves and explosion parameters of 38 stripped-envelope core-collapse supernovae. | LYMAN J.D., BERSIER D., JAMES P.A., et al. | |
2016MNRAS.457.1107H | 297 | D | X F | 7 | 126 | 2 | Progenitor constraints for core-collapse supernovae from Chandra X-ray observations. | HEIKKILA T., TSYGANKOV S., MATTILA S., et al. | |
2016MNRAS.458.2973P | 338 | D | X | 9 | 90 | 117 | The bolometric light curves and physical parameters of stripped-envelope supernovae. | PRENTICE S.J., MAZZALI P.A., PIAN E., et al. | |
2016MNRAS.460.1500S | 120 | X | 3 | 26 | 11 | The continuing story of SN IIb 2013df: new optical and IR observations and analysis. | SZALAI T., VINKO J., NAGY A.P., et al. | ||
2017ApJ...840...10Y | 8 | 14 | 114 | Type Ib and IIb supernova progenitors in interacting binary systems. | YOON S.-C., DESSART L. and CLOCCHIATTI A. | ||||
2017MNRAS.469.2672P | 138 | D | X | 4 | 63 | 18 | A physically motivated classification of stripped-envelope supernovae. | PRENTICE S.J. and MAZZALI P.A. | |
2018A&A...609A.134S | 41 | X | 1 | 65 | 36 | The Carnegie Supernova Project I. Photometry data release of low-redshift stripped-envelope supernovae. | STRITZINGER M.D., ANDERSON J.P., CONTRERAS C., et al. | ||
2018MNRAS.476.3611G | 716 | D | X F | 17 | 25 | 3 | SN 2015as: a low-luminosity Type IIb supernova without an early light-curve peak. | GANGOPADHYAY A., MISRA K., PASTORELLO A., et al. | |
2018ApJ...864...47F | 140 | D | X | 4 | 12 | 4 | The origin of the ha-like structure in nebular spectra of Type IIb supernovae. | FANG Q. and MAEDA K. | |
2018MNRAS.479.2481S | 16 | D | 1 | 133 | 1 | On the optical counterparts of radio transients and variables. | STEWART A.J., MUNOZ-DARIAS T., FENDER R.P., et al. | ||
2019PASP..131a4002H | 125 | X C | 2 | 173 | 56 | Carnegie Supernova Project-II: the near-infrared spectroscopy program. | HSIAO E.Y., PHILLIPS M.M., MARION G.H., et al. | ||
2019MNRAS.485..102S | 2717 | T K A | D | S X C | 63 | 17 | 2 |
The 3D shape of Type IIb SN 2011hs. |
STEVANCE H.F., MAUND J.R., BAADE D., et al. |
2019MNRAS.485.1559P | 17 | D | 2 | 106 | 89 | Investigating the properties of stripped-envelope supernovae: what are the implications for their progenitors? | PRENTICE S.J., ASHALL C., JAMES P.A., et al. | ||
2019NatAs...3..434F | 17 | D | 2 | 51 | 22 | A hybrid envelope-stripping mechanism for massive stars from supernova nebular spectroscopy. | FANG Q., MAEDA K., KUNCARAYAKTI H., et al. | ||
2019ApJ...880L..22W | 17 | D | 1 | 31 | ~ | Optimal classification and outlier detection for stripped-envelope core-collapse supernovae. | WILLIAMSON M., MODJAZ M. and BIANCO F.B. | ||
2019MNRAS.488.4239P | 17 | D | 3 | 106 | 19 | Comparison of the optical light curves of hydrogen-rich and hydrogen-poor type II supernovae. | PESSI P.J., FOLATELLI G., ANDERSON J.P., et al. | ||
2019MNRAS.489.5802V | 17 | D | 1 | 72 | 28 | Spectrophotometric templates for core-collapse supernovae and their application in simulations of time-domain surveys. | VINCENZI M., SULLIVAN M., FIRTH R.E., et al. | ||
2020ApJ...890..159L | 43 | X | 1 | 63 | 23 | The deepest radio observations of nearby SNe Ia: constraining progenitor types and optimizing future surveys. | LUNDQVIST P., KUNDU E., PEREZ-TORRES M.A., et al. | ||
2020MNRAS.494..885S | 128 | X | 3 | 13 | ~ | The shape of SN 1993J re-analysed. | STEVANCE H.F., BAADE D., BRUTEN J.R., et al. | ||
2020A&A...641A.177M | 17 | D | 2 | 288 | ~ | Stripped-envelope core-collapse supernova 56Ni masses. Persistently larger values than supernovae type II. | MEZA N. and ANDERSON J.P. | ||
2020MNRAS.499..974G | 511 | X F | 11 | 41 | ~ | SN 2017ivv: two years of evolution of a transitional Type II supernova. | GUTIERREZ C.P., PASTORELLO A., JERKSTRAND A., et al. | ||
2020ApJ...903...70S | 17 | D | 1 | 22 | ~ | Progenitors of Type IIb supernovae. II. Observable properties. | SRAVAN N., MARCHANT P., KALOGERA V., et al. | ||
2021ApJ...908...75B | 17 | D | 1 | 556 | 32 | The radio luminosity-risetime function of core-collapse supernovae. | BIETENHOLZ M.F., BARTEL N., ARGO M., et al. | ||
2021MNRAS.501.5797B | 104 | D | F | 4 | 181 | ~ | Optical and spectral observations and hydrodynamic modelling of type IIb supernova 2017gpn. | BALAKINA E.A., PRUZHINSKAYA M.V., MOSKVITIN A.S., et al. | |
2021MNRAS.505.3950G | 235 | D | X F | 5 | 37 | ~ | Understanding the extreme luminosity of DES14X2fna. | GRAYLING M., GUTIERREZ C.P., SULLIVAN M., et al. | |
2021MNRAS.507.3125A | 44 | X | 1 | 8 | 6 | SN2017jgh: a high-cadence complete shock cooling light curve of a SN IIb with the Kepler telescope. | ARMSTRONG P., TUCKER B.E., REST A., et al. | ||
2021ApJ...923...86C | 17 | D | 1 | 813 | 3 | Local environments of low-redshift supernovae. | CRONIN S.A., UTOMO D., LEROY A.K., et al. | ||
2022ApJ...928..151F | 18 | D | 1 | 201 | 16 | Statistical Properties of the Nebular Spectra of 103 Stripped-envelope Core-collapse Supernovae. | FANG Q., MAEDA K., KUNCARAYAKTI H., et al. | ||
2022ApJ...925..175S | 18 | D | 4 | 117 | 18 | Carnegie Supernova Project-II: Near-infrared Spectroscopy of Stripped-envelope Core-collapse Supernovae. | SHAHBANDEH M., HSIAO E.Y., ASHALL C., et al. | ||
2022ApJ...930...31B | 18 | D | 1 | 90 | 3 | Characterization of Supernovae Based on the Spectral-Temporal Energy Distribution: Two Possible SN Ib Subtypes. | BENGYAT O. and GAL-YAM A. | ||
2022ApJ...931..153S | 18 | D | 1 | 84 | 5 | Constraints on the Explosion Timescale of Core-collapse Supernovae Based on Systematic Analysis of Light Curves. | SAITO S., TANAKA M., SAWADA R., et al. | ||
2022MNRAS.514.5686P | 18 | D | 2 | 87 | 9 | Oxygen and calcium nebular emission line relationships in core-collapse supernovae and Ca-rich transients. | PRENTICE S.J., MAGUIRE K., SIEBENALER L., et al. | ||
2022ApJ...934..186N | 152 | D | X C | 3 | 20 | 1 | Radio Evolution of a Type IIb Supernova SN 2016gkg. | NAYANA A.J., CHANDRA P., KRISHNA A., et al. | |
2022MNRAS.517.1750A | 197 | D | C F | 6 | 21 | 4 | SN 2016iyc: a Type IIb supernova arising from a low-mass progenitor. | ARYAN A., PANDEY S.B., ZHENG W., et al. | |
2023MNRAS.521.2860S | 112 | D | F | 4 | 94 | 9 | A UV census of the environments of stripped-envelope supernovae. | SUN N.-C., MAUND J.R. and CROWTHER P.A. | |
2023ApJ...955...42C | 47 | X | 1 | 8 | ~ | Late-time Hubble Space Telescope Observations of AT 2018cow. I. Further Constraints on the Fading Prompt Emission and Thermal Properties 50-60 days Post-discovery. | CHEN Y., DROUT M.R., PIRO A.L., et al. | ||
2024ApJ...960...63P | 50 | X | 1 | 15 | ~ | The Effects of Thomson Scattering and Chemical Mixing on Early-time Light Curves of Double-peaked Type IIb Supernovae. | PARK S.H., YOON S.-C. and BLINNIKOV S. | ||
2024NatAs...8..111F | 20 | D | 2 | 85 | ~ | An aspherical distribution for the explosive burning ash of core-collapse supernovae. | FANG Q., MAEDA K., KUNCARAYAKTI H., et al. |