Philipp Podsiadlowski

A binary merger model for the formation of the Supernova 1987A triple-ring nebula

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 399:2 (2009) 515-538

Authors:

T Morris, Ph Podsiadlowski

On type Ia supernovae and the formation of single low-mass white dwarfs

ArXiv 0811.2633 (2008)

Authors:

Stephen Justham, Christian Wolf, Philipp Podsiadlowski, Zhanwen Han

Abstract:

There is still considerable debate over the progenitors of type Ia supernovae (SNe Ia). Likewise, it is not agreed how single white dwarfs with masses less than ~0.5 Msun can be formed in the field, even though they are known to exist. We consider whether single low-mass white dwarfs (LMWDs) could have been formed in binary systems where their companions have exploded as a SN Ia. In this model, the observed single LMWDs are the remnants of giant-branch donor stars whose envelopes have been stripped off by the supernova explosion. We investigate the likely remnants of SNe Ia, including the effects of the explosion on the envelope of the donor star. We also use evolutionary arguments to examine alternative formation channels for single LMWDs. In addition, we calculate the expected kinematics of the potential remnants of SNe Ia. SN Ia in systems with giant-branch donor stars can naturally explain the production of single LMWDs. It seems difficult for any other formation mechanism to account for the observations, especially for those single LMWDs with masses less than ~0.4 Msun. Independent of those results, we find that the kinematics of one potentially useful population containing single LMWDs is consistent with our model. Studying remnant white-dwarf kinematics seems to be a promising way to investigate SN Ia progenitors. The existence of single LMWDs appears to constitute evidence for the production of SNe Ia in binary systems with a red-giant donor star. Other single white dwarfs with higher space velocities support a second, probably dominant, population of SN Ia progenitors which contained main-sequence or subgiant donor stars at the time of explosion. The runaway stars LP400-22 and US 708 suggest the possibility of a third formation channnel for some SNe Ia in systems where the donor stars are hot subdwarfs.

Exploring a New Population of Compact Objects: X-ray and IR Observations of the Galactic Centre

ArXiv 0808.0519 (2008)

Authors:

Reba M Bandyopadhyay, Andrew J Gosling, Stephen E Eikenberry, Michael P Muno, Katherine M Blundell, Philipp Podsiadlowski, Valerie J Mikles, Curtis DeWitt

Abstract:

I describe the IR and X-ray observational campaign we have undertaken for the purpose of determining the nature of the faint discrete X-ray source population discovered by Chandra in the Galactic Center (GC). Data obtained for this project includes a deep Chandra survey of the Galactic Bulge; deep, high resolution IR imaging from VLT/ISAAC, CTIO/ISPI, and the UKIDSS Galactic Plane Survey (GPS); and IR spectroscopy from VLT/ISAAC and IRTF/SpeX. By cross-correlating the GC X-ray imaging from Chandra with our IR surveys, we identify candidate counterparts to the X-ray sources via astrometry. Using a detailed IR extinction map, we are deriving magnitudes and colors for all the candidates. Having thus established a target list, we will use the multi-object IR spectrograph FLAMINGOS-2 on Gemini-South to carry out a spectroscopic survey of the candidate counterparts, to search for emission line signatures which are a hallmark of accreting binaries. By determining the nature of these X-ray sources, this FLAMINGOS-2 Galactic Center Survey will have a dramatic impact on our knowledge of the Galactic accreting binary population.

Supernova shock breakout from a red supergiant

Science 321:5886 (2008) 223-226

Authors:

K Schawinski, S Justham, C Wolf, P Podsiadlowski, M Sullivan, KC Steenbrugge, T Bell, HJ Röser, ES Walker, P Astier, D Balam, C Balland, R Carlberg, A Conley, D Fouchez, J Guy, D Hardin, I Hook, DA Howell, R Pain, K Perrett, C Pritchet, N Regnault, SK Yi

Abstract:

Massive stars undergo a violent death when the supply of nuclear fuel in their cores is exhausted, resulting in a catastrophic "core-collapse" supernova. Such events are usually only detected at least a few days after the star has exploded. Observations of the supernova SNLS-04D2dc with the Galaxy Evolution Explorer space telescope reveal a radiative precursor from the supernova shock before the shock reached the surface of the star and show the initial expansion of the star at the beginning of the explosion. Theoretical models of the ultraviolet light curve confirm that the progenitor was a red supergiant, as expected for this type of supernova. These observations provide a way to probe the physics of core-collapse supernovae and the internal structures of their progenitor stars.

Supernova shock breakout from a red supergiant.

Science 321:5886 (2008) 223-226

Authors:

Kevin Schawinski, Stephen Justham, Christian Wolf, Philipp Podsiadlowski, Mark Sullivan, Katrien C Steenbrugge, Tony Bell, Hermann-Josef Röser, Emma S Walker, Pierre Astier, Dave Balam, Christophe Balland, Ray Carlberg, Alex Conley, Dominique Fouchez, Julien Guy, Delphine Hardin, Isobel Hook, D Andrew Howell, Reynald Pain, Kathy Perrett, Chris Pritchet, Nicolas Regnault, Sukyoung K Yi

Abstract:

Massive stars undergo a violent death when the supply of nuclear fuel in their cores is exhausted, resulting in a catastrophic "core-collapse" supernova. Such events are usually only detected at least a few days after the star has exploded. Observations of the supernova SNLS-04D2dc with the Galaxy Evolution Explorer space telescope reveal a radiative precursor from the supernova shock before the shock reached the surface of the star and show the initial expansion of the star at the beginning of the explosion. Theoretical models of the ultraviolet light curve confirm that the progenitor was a red supergiant, as expected for this type of supernova. These observations provide a way to probe the physics of core-collapse supernovae and the internal structures of their progenitor stars.