ABSTRACT A recent cross-correlation between the Sloan Digital Sky Survey (SDSS) Data Release 7 Wh... more ABSTRACT A recent cross-correlation between the Sloan Digital Sky Survey (SDSS) Data Release 7 White Dwarf Catalog with the Wide-Field Infrared Survey Explorer (WISE) all-sky photometry at 3.4, 4.6, 12, and 22 μm performed by Debes et al. resulted in the discovery of 52 candidate dusty white dwarfs (WDs). However, the 6'' WISE beam allows for the possibility that many of the excesses exhibited by these WDs may be due to contamination from a nearby source. We present MMT+SAO Wide-Field InfraRed Camera J- and H-band imaging observations (0.''5-1.''5 point spread function) of 16 of these candidate dusty WDs and confirm that four have spectral energy distributions (SEDs) consistent with a dusty disk and are not accompanied by a nearby source contaminant. The remaining 12 WDs have contaminated WISE photometry and SEDs inconsistent with a dusty disk when the contaminating sources are not included in the photometry measurements. We find the frequency of disks around single WDs in the WISE SDSS sample to be 2.6%-4.1%. One of the four new dusty WDs has a mass of 1.04 M ☉ (progenitor mass 5.4 M ☉) and its discovery offers the first confirmation that massive WDs (and their massive progenitor stars) host planetary systems.
ABSTRACT A recent cross-correlation between the Sloan Digital Sky Survey (SDSS) Data Release 7 Wh... more ABSTRACT A recent cross-correlation between the Sloan Digital Sky Survey (SDSS) Data Release 7 White Dwarf Catalog with the Wide-Field Infrared Survey Explorer (WISE) all-sky photometry at 3.4, 4.6, 12, and 22 μm performed by Debes et al. resulted in the discovery of 52 candidate dusty white dwarfs (WDs). However, the 6'' WISE beam allows for the possibility that many of the excesses exhibited by these WDs may be due to contamination from a nearby source. We present MMT+SAO Wide-Field InfraRed Camera J- and H-band imaging observations (0.''5-1.''5 point spread function) of 16 of these candidate dusty WDs and confirm that four have spectral energy distributions (SEDs) consistent with a dusty disk and are not accompanied by a nearby source contaminant. The remaining 12 WDs have contaminated WISE photometry and SEDs inconsistent with a dusty disk when the contaminating sources are not included in the photometry measurements. We find the frequency of disks around single WDs in the WISE SDSS sample to be 2.6%-4.1%. One of the four new dusty WDs has a mass of 1.04 M ☉ (progenitor mass 5.4 M ☉) and its discovery offers the first confirmation that massive WDs (and their massive progenitor stars) host planetary systems.
Uploads
Papers by A. Gianninas