Multiband imaging of the HD 36546 debris disk: a refined view from SCExAO/CHARIS

Abstract

We present the first multi-wavelength (near-infrared; 1.1 - 2.4 μ m) imaging of HD 36546's debris disk, using the Subaru Coronagraphic Extreme Adaptive Optics (SCExAO) system coupled with the Coronagraphic High Angular Resolution Imaging Spectrograph (CHARIS). As a 3-10 Myr old star, HD 36546 presents a rare opportunity to study a debris disk at very early stages. SCExAO/CHARIS imagery resolves the disk over angular separations of 0.25" - 1.0" (projected separations of rproj 25 - 101 au) and enables the first spectrophotometric analysis of the disk. The disk's brightness appears symmetric between its eastern and western extents and it exhibits slightly blue near-infrared colors on average (e.g. J-K =-0.40.1) - suggesting copious sub-micron sized or highly porous grains. Through detailed modeling adopting a Hong scattering phase function (SPF), instead of the more common Henyey-Greenstein function, and using the differential evolution optimization algorithm, we provide an updated schematic of HD 36546's disk. The disk has a shallow radial dust density profile (αin ≈ 1.0 and αout ≈ -1.5), a fiducial radius of r0 ≈ 82.7 au, an inclination of i ≈ 79.1, and a position angle of PA ≈ 80.1. Through spine tracing, we find a spine that is consistent with our modeling, but also with a "swept-back wing" geometry. Finally, we provide constraints on companions, including limiting a companion responsible for a marginal Hipparcos-Gaia acceleration to a projected separation of 0.2'' and to a minimum mass of 11 MJup.