Philipp Podsiadlowski

A Photometric Redshift of z ~ 9.4 for GRB 090429B

ArXiv 1105.4915 (2011)

Authors:

A Cucchiara, AJ Levan, DB Fox, NR Tanvir, TN Ukwatta, E Berger, T Krühler, A Küpcü Yoldaş, XF Wu, K Toma, J Greiner, F Olivares E, A Rowlinson, L Amati, T Sakamoto, K Roth, A Stephens, A Fritz, JPU Fynbo, J Hjorth, D Malesani, P Jakobsson, K Wiersema, PT O'Brien, AM Soderberg, RJ Foley, AS Fruchter, J Rhoads, RE Rutledge, BP Schmidt, MA Dopita, P Podsiadlowski, R Willingale, C Wolf, SR Kulkarni, P D'Avanzo

Abstract:

Gamma-ray bursts (GRBs) serve as powerful probes of the early Universe, with their luminous afterglows revealing the locations and physical properties of star forming galaxies at the highest redshifts, and potentially locating first generation (Population III) stars. Since GRB afterglows have intrinsically very simple spectra, they allow robust redshifts from low signal to noise spectroscopy, or photometry. Here we present a photometric redshift of z~9.4 for the Swift-detected GRB 090429B based on deep observations with Gemini-North, the Very Large Telescope, and the GRB Optical and Near-infrared Detector. Assuming a Small Magellanic Cloud dust law (which has been found in a majority of GRB sight-lines), the 90% likelihood range for the redshift is 9.06 < z < 9.52, although there is a low-probability tail to somewhat lower redshifts. Adopting Milky Way or Large Magellanic Cloud dust laws leads to very similar conclusions, while a Maiolino law does allow somewhat lower redshift solutions, but in all cases the most likely redshift is found to be z>7. The non-detection of the host galaxy to deep limits (Y_AB >~ 28 mag, which would correspond roughly to 0.001 L* at z=1) in our late time optical and infrared observations with the Hubble Space Telescope strongly supports the extreme redshift origin of GRB 090429B, since we would expect to have detected any low-z galaxy, even if it were highly dusty. Finally, the energetics of GRB 090429B are comparable to those of other GRBs, and suggest that its progenitor is not greatly different to those of lower redshift bursts.

The subluminous and peculiar Type Ia supernova PTF09dav

Astrophysical Journal 732:2 (2011)

Authors:

M Sullivan, MM Kasliwal, PE Nugent, DA Howell, RC Thomas, EO Ofek, I Arcavi, S Blake, J Cooke, A Gal-Yam, IM Hook, P Mazzali, P Podsiadlowski, R Quimby, L Bildsten, JS Bloom, SB Cenko, SR Kulkarni, N Law, D Poznanski

Abstract:

PTF09dav is a peculiar subluminous Type Ia supernova (SN) discovered by the Palomar Transient Factory (PTF). Spectroscopically, it appears superficially similar to the class of subluminous SN1991bg-like SNe, but it has several unusual features which make it stand out from this population. Its peak luminosity is fainter than any previously discovered SN1991bg-like SN Ia (M B ∼ -15.5), but without the unusually red optical colors expected if the faint luminosity were due to extinction. The photospheric optical spectra have very unusual strong lines of Sc II and Mg I, with possible Sr II, together with stronger than average Ti II and low velocities of ∼6000 kms-1. The host galaxy of PTF09dav is ambiguous. The SN lies either on the extreme outskirts (∼41kpc) of a spiral galaxy or in an very faint (MR ≥ -12.8) dwarf galaxy, unlike other 1991bg-like SNe which are invariably associated with massive, old stellar populations. PTF09dav is also an outlier on the light-curve-width-luminosity and color-luminosity relations derived for other subluminous SNe Ia. The inferred 56Ni mass is small (0.019 ± 0.003 M⊙), as is the estimated ejecta mass of 0.36 M⊙. Taken together, these properties make PTF09dav a remarkable event. We discuss various physical models that could explain PTF09dav. Helium shell detonation or deflagration on the surface of a CO white dwarf can explain some of the features of PTF09dav, including the presence of Sc and the low photospheric velocities, but the observed Si and Mg are not predicted to be very abundant in these models. We conclude that no single model is currently capable of explaining all of the observed signatures of PTF09dav. © 2011. The American Astronomical Society. All rights reserved.

Connecting RS OPh to [some] Type Ia Supernovae

ArXiv 1104.0506 (2011)

Authors:

F Patat, NN Chugai, Ph Podsiadlowski, E Mason, C Melo, L Pasquini

Abstract:

Aims: Recurrent nova systems like RS Oph have been proposed as a possible channel to Type Ia Supernova explosions, based on the high mass of the accreting white dwarf. Additional support to this hypothesis has been recently provided by the detection of circumstellar material around SN2006X and SN2007le, showing a structure compatible with that expected for recurrent nova outbursts.In this paper we investigate the circumstellar environment of RS Oph and its structure, with the aim of establishing a firmer and independent link between this class of objects and Type Ia SN progenitors. Methods: We study the time evolution of CaII, NaI and KI absorption features in RS Oph, before, during, and after the last outburst, using multi-epoch, high-resolution spectroscopy, and applying the same method adopted for SN2006X and SN2007le. Results: A number of components, blue-shifted with respect to the systemic velocity of RS Oph, are detected. In particular, one feature strongly weakens in the first two weeks after the outburst, simultaneously with the disappearance of very narrow P-Cyg profiles overimposed on the much wider nova emission lines of H, He, FeII and other elements. Conclusions: We interpret these facts as the signature of density enhancements in the circumstellar material, suggesting that the recurrent eruptions might indeed create complex structures within the material lost by the donor star. This establishes a strong link between RS Oph and the progenitor system of the Type Ia SN2006X, for which similar features have been detected.

The Subluminous and Peculiar Type Ia Supernova PTF09dav

ArXiv 1103.1797 (2011)

Authors:

M Sullivan, MM Kasliwal, PE Nugent, DA Howell, RC Thomas, EO Ofek, I Arcavi, S Blake, J Cooke, A Gal-Yam, IM Hook, P Mazzali, P Podsiadlowski, R Quimby, L Bildsten, JS Bloom, SB Cenko, SR Kulkarni, N Law, D Poznanski

Abstract:

PTF09dav is a peculiar subluminous type Ia supernova (SN) discovered by the Palomar Transient Factory (PTF). Spectroscopically, it appears superficially similar to the class of subluminous SN1991bg-like SNe, but it has several unusual features which make it stand out from this population. Its peak luminosity is fainter than any previously discovered SN1991bg-like SN Ia (M_B -15.5), but without the unusually red optical colors expected if the faint luminosity were due to extinction. The photospheric optical spectra have very unusual strong lines of Sc II and Mg I, with possible Sr II, together with stronger than average Ti II and low velocities of ~6000 km/s. The host galaxy of PTF09dav is ambiguous. The SN lies either on the extreme outskirts (~41kpc) of a spiral galaxy, or in an very faint (M_R>-12.8) dwarf galaxy, unlike other 1991bg-like SNe which are invariably associated with massive, old stellar populations. PTF09dav is also an outlier on the light-curve-width--luminosity and color--luminosity relations derived for other sub-luminous SNe Ia. The inferred 56Ni mass is small (0.019+/-0.003Msun), as is the estimated ejecta mass of 0.36Msun. Taken together, these properties make PTF09dav a remarkable event. We discuss various physical models that could explain PTF09dav. Helium shell detonation or deflagration on the surface of a CO white-dwarf can explain some of the features of PTF09dav, including the presence of Sc and the low photospheric velocities, but the observed Si and Mg are not predicted to be very abundant in these models. We conclude that no single model is currently capable of explaining all of the observed signatures of PTF09dav.

Galaxy Zoo Supernovae

Monthly Notices of the Royal Astronomical Society 412:2 (2011) 1309-1319

Authors:

AM Smith, S Lynn, M Sullivan, CJ Lintott, PE Nugent, J Botyanszki, M Kasliwal, R Quimby, SP Bamford, LF Fortson, K Schawinski, I Hook, S Blake, P Podsiadlowski, J Jönsson, A Gal-Yam, I Arcavi, DA Howell, JS Bloom, J Jacobsen, SR Kulkarni, NM Law, EO Ofek, R Walters

Abstract:

This paper presents the first results from a new citizen science project: Galaxy Zoo Supernovae. This proof-of-concept project uses members of the public to identify supernova candidates from the latest generation of wide-field imaging transient surveys. We describe the Galaxy Zoo Supernovae operations and scoring model, and demonstrate the effectiveness of this novel method using imaging data and transients from the Palomar Transient Factory (PTF). We examine the results collected over the period 2010 April-July, during which nearly 14000 supernova candidates from the PTF were classified by more than 2500 individuals within a few hours of data collection. We compare the transients selected by the citizen scientists to those identified by experienced PTF scanners and find the agreement to be remarkable - Galaxy Zoo Supernovae performs comparably to the PTF scanners and identified as transients 93 per cent of the ∼130 spectroscopically confirmed supernovae (SNe) that the PTF located during the trial period (with no false positive identifications). Further analysis shows that only a small fraction of the lowest signal-to-noise ratio detections (r > 19.5) are given low scores: Galaxy Zoo Supernovae correctly identifies all SNe with ≥8σ detections in the PTF imaging data. The Galaxy Zoo Supernovae project has direct applicability to future transient searches, such as the Large Synoptic Survey Telescope, by both rapidly identifying candidate transient events and via the training and improvement of existing machine classifier algorithms. © 2011 The Authors Monthly Notices of the Royal Astronomical Society © 2011 RAS.