A Multiwavelength Study of the Highly Asymmetrical Debris Disk around HD 111520

A Multiwavelength Study of the Highly Asymmetrical Debris Disk around HD 111520

We observed the nearly edge-on debris disk system HD 111520 at the HJ and K 1 near-infrared (NIR) bands using both the spectral and polarization modes of the Gemini Planet Imager. With these new observations, we have performed an empirical analysis in order to better understand the disk morphology a...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 932; no. 1; pp. 23 - 33
Main Authors: Crotts, Katie A., Draper, Zachary H., Matthews, Brenda C., Duchêne, Gaspard, Esposito, Thomas M., Wilner, David, Mazoyer, Johan, Padgett, Deborah, Kalas, Paul, Stapelfeldt, Karl
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 01-06-2022
IOP Publishing
American Astronomical Society
Subjects:
Astrophysics
Asymmetry
Brightness
Circumstellar disks
Debris
Debris disks
Dust
Empirical analysis
Hubble Space Telescope
Mass distribution
Near infrared astronomy
Near infrared radiation
Planet detection
Planets
Polarimetry
Radio telescopes
Sciences of the Universe
Space telescopes
Wavelengths
Near infrared astronomy
Circumstellar disks
Polarimetry
Debris disks
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Summary:We observed the nearly edge-on debris disk system HD 111520 at the HJ and K 1 near-infrared (NIR) bands using both the spectral and polarization modes of the Gemini Planet Imager. With these new observations, we have performed an empirical analysis in order to better understand the disk morphology and its highly asymmetrical nature. We find that the disk features a large brightness and radial asymmetry, most prominent at shorter wavelengths. We also find that the radial location of the peak polarized intensity differs on either side of the star by 11 au, suggesting that the disk may be eccentric, although, such an eccentricity does not fully explain the large brightness and radial asymmetry observed. Observations of the disk halo with the Hubble Space Telescope also show the disk to be warped at larger separations, with a bifurcation feature in the northwest, further suggesting that there may be a planet in this system creating an asymmetrical disk structure. Measuring the disk color shows that the brighter extension is bluer compared to the dimmer extension, suggesting that the two sides have different dust grain properties. This finding, along with the large brightness asymmetry, are consistent with the hypothesis that a giant impact occurred between two large bodies in the northern extension of the disk, although confirming this based on NIR observations alone is not feasible. Follow-up imaging with the Atacama Large Millimeter/submillimeter Array to resolve the asymmetry in the dust mass distribution is essential in order to confirm this scenario.
Bibliography:AAS37186
Interstellar Matter and the Local Universe
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ac6c86