G. V. Simonian
Ohio State University
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Science | 2016
Subo Dong; B. J. Shappee; Jose Luis Palacio Prieto; Saurabh W. Jha; K. Z. Stanek; T. W.-S. Holoien; C. S. Kochanek; Todd A. Thompson; Nidia I. Morrell; Ian B. Thompson; U. Basu; J. F. Beacom; D. F. Bersier; J. K. Brimacombe; J. S. Brown; F. Bufano; Ping Chen; E. Conseil; A. B. Danilet; E. Falco; Dirk Grupe; Seiichiro Kiyota; G. Masi; B. Nicholls; F. Olivares; G. Pignata; G. Pojmanski; G. V. Simonian; D. M. Szczygieł; P. R. Woźniak
The most luminous supernova to date Supernovae are exploding stars at the end of their lives, providing an input of heavy elements and energy into galaxies. Some types have near-identical peak brightness, but in recent years a new class of superluminous supernovae has been found. Dong et al.y report the discovery of ASASSN-15lh (SN 2015L), the most luminous supernova yet found by some margin. It appears to originate in a large quiescent galaxy, in contrast to most super-luminous supernovae, which typically come from star-forming dwarf galaxies. The discovery will provide constraints on models of superluminous supernovae and how they affect their host galaxies. Science, this issue p. 257 The most luminous supernova yet found was glimpsed in an unusual host galaxy. We report the discovery of ASASSN-15lh (SN 2015L), which we interpret as the most luminous supernova yet found. At redshift z = 0.2326, ASASSN-15lh reached an absolute magnitude of Mu,AB = –23.5 ± 0.1 and bolometric luminosity Lbol = (2.2 ± 0.2) × 1045 ergs s–1, which is more than twice as luminous as any previously known supernova. It has several major features characteristic of the hydrogen-poor super-luminous supernovae (SLSNe-I), whose energy sources and progenitors are currently poorly understood. In contrast to most previously known SLSNe-I that reside in star-forming dwarf galaxies, ASASSN-15lh appears to be hosted by a luminous galaxy (MK ≈ –25.5) with little star formation. In the 4 months since first detection, ASASSN-15lh radiated (1.1 ± 0.2) × 1052 ergs, challenging the magnetar model for its engine.
Monthly Notices of the Royal Astronomical Society | 2015
H. Campbell; T. R. Marsh; M. Fraser; Simon T. Hodgkin; E. de Miguel; B. T. Gänsicke; D. Steeghs; A. Hourihane; E. Breedt; S. P. Littlefair; S. E. Koposov; Ł. Wyrzykowski; G. Altavilla; N. Blagorodnova; G. Clementini; G. Damljanovic; A. Delgado; M. Dennefeld; Andrew J. Drake; J. Fernández-Hernández; G. Gilmore; R. Gualandi; A. Hamanowicz; B. Handzlik; L. K. Hardy; D. Harrison; Krystian Ilkiewicz; P. G. Jonker; C. S. Kochanek; Z. Kołaczkowski
We report the discovery and characterization of a deeply eclipsing AM CVn-system, Gaia14aae (=ASSASN-14cn). Gaia14aae was identified independently by the All-Sky Automated Survey for Supernovae (ASAS-SN; Shappee et al.) and by the Gaia Science Alerts project, during two separate outbursts. A third outburst is seen in archival Pan-STARRS-1 (PS1; Schlafly et al.; Tonry et al.; Magnier et al.) and ASAS-SN data. Spectroscopy reveals a hot, hydrogen-deficient spectrum with clear double-peaked emission lines, consistent with an accreting double-degenerate classification. We use follow-up photometry to constrain the orbital parameters of the system. We find an orbital period of 49.71 min, which places Gaia14aae at the long period extremum of the outbursting AM CVn period distribution. Gaia14aae is dominated by the light from its accreting white dwarf (WD). Assuming an orbital inclination of 90° for the binary system, the contact phases of the WD lead to lower limits of 0.78 and 0.015 M⊙ on the masses of the accretor and donor, respectively, and a lower limit on the mass ratio of 0.019. Gaia14aae is only the third eclipsing AM CVn star known, and the first in which the WD is totally eclipsed. Using a helium WD model, we estimate the accretors effective temperature to be 12 900 ± 200 K. The three outburst events occurred within four months of each other, while no other outburst activity is seen in the previous 8 yr of Catalina Real-time Transient Survey (CRTS; Drake et al.), Pan-STARRS-1 and ASAS-SN data. This suggests that these events might be rebrightenings of the first outburst rather than individual events.
Monthly Notices of the Royal Astronomical Society | 2015
Andrea Pastorello; Jose Luis Palacio Prieto; N. Elias-Rosa; D. F. Bersier; G. Hosseinzadeh; A. Morales-Garoffolo; U. M. Noebauer; S. Taubenberger; L. Tomasella; C. S. Kochanek; Emilio E. Falco; U. Basu; John F. Beacom; Stefano Benetti; J. Brimacombe; E. Cappellaro; A. B. Danilet; Subo Dong; J. M. Fernandez; N. Goss; Valentina Granata; A. Harutyunyan; T. W.-S. Holoien; E. E. O. Ishida; Seiichiro Kiyota; G. Krannich; B. Nicholls; P. Ochner; G. Pojmanski; B. J. Shappee
We present the results of the spectroscopic and photometric monitoring campaign of ASASSN-15ed. The transient was discovered quite young by the All Sky Automated Survey for SuperNovae (ASAS-SN) survey. Amateur astronomers allowed us to sample the photometric SN evolution around maximum light, which we estimate to have occurred on JD = 2457087.4 ± 0.6 in the r band. Its apparent r-band magnitude at maximum was r = 16.91 ± 0.10, providing an absolute magnitude Mr ≈ −20.04 ± 0.20, which is slightly more luminous than the typical magnitudes estimated for Type Ibn SNe. The post-peak evolution was well monitored, and the decline rate (being in most bands around 0.1 mag d−1 during the first 25 d after maximum) is marginally slower than the average decline rates of SNe Ibn during the same time interval. The object was initially classified as a Type Ibn SN because early-time spectra were characterized by a blue continuum with superimposed narrow P-Cygni lines of He I, suggesting the presence of a slowly moving (1200–1500 km s−1), He-rich circumstellar medium. Later on, broad P-Cygni He I lines became prominent. The inferred velocities, as measured from the minimum of the broad absorption components, were between 6000 and 7000 km s−1. As we attribute these broad features to the SN ejecta, this is the first time we have observed the transition of a Type Ibn SN to a Type Ib SN.
Monthly Notices of the Royal Astronomical Society | 2017
T. W.-S. Holoien; K. Z. Stanek; C. S. Kochanek; B. J. Shappee; Jose Luis Palacio Prieto; J. K. Brimacombe; D. F. Bersier; D. W. Bishop; Subo Dong; J. S. Brown; A. B. Danilet; G. V. Simonian; U. Basu; J. F. Beacom; E. Falco; G. Pojmanski; D. Skowron; P. R. Woźniak; C. G. Ávila; E. Conseil; C. Contreras; I. Cruz; J. M. Fernández; R. A. Koff; Zhen Guo; Gregory J. Herczeg; J. Hissong; E. Y. Hsiao; Jessy Jose; Seiichiro Kiyota
We present basic statistics for all supernovae discovered by the All-Sky Automated Survey for SuperNovae (ASAS-SN) during its first year-and-a-half of operations, spanning 2013 and 2014. We also present the same information for all other bright (
Monthly Notices of the Royal Astronomical Society | 2017
T. W.-S. Holoien; J. S. Brown; K. Z. Stanek; C. S. Kochanek; B. J. Shappee; Jose Luis Palacio Prieto; Subo Dong; J. Brimacombe; D. W. Bishop; U. Basu; John F. Beacom; D. F. Bersier; Ping Chen; A. B. Danilet; Emilio E. Falco; D. Godoy-Rivera; N. Goss; G. Pojmanski; G. V. Simonian; D. Skowron; Todd A. Thompson; P. R. Woźniak; C. G. Ávila; G. Bock; J. L. G. Carballo; E. Conseil; C. Contreras; I. Cruz; J. M. F. andújar; Zhen Guo
m_V\leq17
The Astrophysical Journal | 2018
M. Fausnaugh; D. Starkey; K. Horne; C. S. Kochanek; Bradley M. Peterson; Misty C. Bentz; K. D. Denney; C. J. Grier; Dirk Grupe; Richard W. Pogge; G. De Rosa; S. M. Adams; Aaron J. Barth; Thomas G. Beatty; A. Bhattacharjee; G. A. Borman; Todd A. Boroson; Mark Clinton Bottorff; Jacob E. Brown; J. S. Brown; Michael S. Brotherton; Carl T. Coker; S. M. Crawford; K. V. Croxall; Sarah Eftekharzadeh; Michael Eracleous; Michael D. Joner; C. B. Henderson; T. W.-S. Holoien; T. Hutchison
), spectroscopically confirmed supernovae discovered from 2014 May 1 through the end of 2014, providing a comparison to the ASAS-SN sample starting from the point where ASAS-SN became operational in both hemispheres. In addition, we present collected redshifts and near-UV through IR magnitudes, where available, for all host galaxies of the bright supernovae in both samples. This work represents a comprehensive catalog of bright supernovae and their hosts from multiple professional and amateur sources, allowing for population studies that were not previously possible because the all-sky emphasis of ASAS-SN redresses most previously existing biases. In particular, ASAS-SN systematically finds supernovae closer to the centers of host galaxies than either other professional surveys or amateurs, a remarkable result given ASAS-SNs poorer angular resolution. This is the first of a series of yearly papers on bright supernovae and their hosts that will be released by the ASAS-SN team.
Monthly Notices of the Royal Astronomical Society | 2017
G. V. Simonian; Paul Martini
This manuscript presents information for all supernovae discovered by the All-Sky Automated Survey for SuperNovae (ASAS-SN) during 2015, its second full year of operations. The same information is presented for bright (
The Astrophysical Journal | 2017
Samuel J. Swihart; Jay Strader; T. J. Johnson; C. C. Cheung; David J. Sand; Laura Chomiuk; Asher Wasserman; Søren S. Larsen; Jean P. Brodie; G. V. Simonian; Evangelia Tremou; Laura Shishkovsky; Daniel E. Reichart; Joshua B. Haislip
m_V\leq17
Monthly Notices of the Royal Astronomical Society | 2016
T. W.-S. Holoien; C. S. Kochanek; Jose Luis Palacio Prieto; K. Z. Stanek; Subo Dong; B. J. Shappee; Dirk Grupe; J. S. Brown; U. Basu; J. F. Beacom; D. F. Bersier; J. K. Brimacombe; A. B. Danilet; E. Falco; Zhen Guo; Jessy Jose; Gregory J. Herczeg; Feng Long; G. Pojmanski; G. V. Simonian; D. M. Szczygieł; Todd A. Thompson; J. R. Thorstensen; R. M. Wagner; P. R. Woźniak
), spectroscopically confirmed supernovae discovered by other sources in 2015. As with the first ASAS-SN bright supernova catalog, we also present redshifts and near-UV through IR magnitudes for all supernova host galaxies in both samples. Combined with our previous catalog, this work comprises a complete catalog of 455 supernovae from multiple professional and amateur sources, allowing for population studies that were previously impossible. This is the second of a series of yearly papers on bright supernovae and their hosts from the ASAS-SN team.
The Astrophysical Journal | 2016
B. J. Shappee; Anthony L. Piro; T. W.-S. Holoien; Jose Luis Palacio Prieto; C. Contreras; K. Itagaki; Christopher R. Burns; C. S. Kochanek; K. Z. Stanek; E. Alper; U. Basu; J. F. Beacom; D. F. Bersier; J. K. Brimacombe; E. Conseil; A. B. Danilet; Subo Dong; E. Falco; Dirk Grupe; E. Y. Hsiao; Seiichiro Kiyota; Nidia I. Morrell; J. Nicolas; Mark M. Phillips; G. Pojmanski; G. V. Simonian; Maximilian D. Stritzinger; D. M. Szczygieł; F. Taddia; Todd A. Thompson
We present optical continuum lags for two Seyfert 1 galaxies, MCG+08-11-011 and NGC 2617, using monitoring data from a reverberation mapping campaign carried out in 2014. Our light curves span the ugriz filters over four months, with median cadences of 1.0 and 0.6 days for MCG+08-11-011 and NGC 2617, respectively, combined with roughly daily X-ray and near-UV data from Swift for NGC 2617. We find lags consistent with geometrically thin accretion-disk models that predict a lag-wavelength relation of τ ∝ λ^(4/3). However, the observed lags are larger than predictions based on standard thin-disk theory by factors of 3.3 for MCG+08-11-011 and 2.3 for NGC 2617. These differences can be explained if the mass accretion rates are larger than inferred from the optical luminosity by a factor of 4.3 in MCG+08-11-011 and a factor of 1.3 in NGC 2617, although uncertainty in the SMBH masses determines the significance of this result. While the X-ray variability in NGC 2617 precedes the UV/optical variability, the long (2.6 day) lag is problematic for coronal reprocessing models.
