SCExAO/CHARIS Near-Infrared Direct Imaging, Spectroscopy, and Forward-Modeling of kappa And b: A Likely Young, Low-Gravity Superjovian Companion

TL;DR

This paper reports high-contrast imaging and spectroscopy of the low-mass companion $ppa$ And b, revealing its spectral type, possible orbit, and formation clues, using advanced forward-modeling techniques with the SCExAO/CHARIS instrument.

Contribution

It introduces a new forward-modeling algorithm for integral field spectroscopy data, enabling precise characterization of directly-imaged exoplanets and brown dwarfs.

Findings

ppab's spectrum resembles a low-gravity L0--L1 dwarf.

The companion's mass is near the deuterium-burning limit (~13 Mj).

Orbital modeling suggests a likely eccentric orbit with a semimajor axis possibly larger than 75 au.

Abstract

We present SCExAO/CHARIS high-contrast imaging/$JHK$ integral field spectroscopy of $\kappa$ And b, a directly-imaged low-mass companion orbiting a nearby B9V star. We detect $\kappa$ And b at a high signal-to-noise and extract high precision spectrophotometry using a new forward-modeling algorithm for (A-)LOCI complementary to KLIP-FM developed by Pueyo (2016). $\kappa$ And b's spectrum best resembles that of a low-gravity L0--L1 dwarf (L0--L1$\gamma$). Its spectrum and luminosity are very well matched by 2MASSJ0141-4633 and several other 12.5--15 $M_{\rm J}$ free floating members of the 40 $Myr$-old Tuc-Hor Association, consistent with a system age derived from recent interferometric results for the primary, a companion mass at/near the deuterium-burning limit (13$^{+12}_{-2}$ M$_{\rm J}$), and a companion-to-primary mass ratio characteristic of other directly-imaged planets ($q$ $\sim$ 0.005$^{+0.005}_{-0.001}$). We did not unambiguously identify additional, more closely-orbiting companions brighter and more massive than $\kappa$ And b down to $\rho$ $\sim$ 0.3" (15 au). SCExAO/CHARIS and complementary Keck/NIRC2 astrometric points reveal clockwise orbital motion. Modeling points towards a likely eccentric orbit: a subset of acceptable orbits include those that are aligned with the star's rotation axis. However, $\kappa$ And b's semimajor axis is plausibly larger than 75 au and in a region where disk instability could form massive companions. Deeper $\kappa$ And high-contrast imaging and low-resolution spectroscopy from extreme AO systems like SCExAO/CHARIS and higher resolution spectroscopy from Keck/OSIRIS or, later, IRIS on the Thirty Meter Telescope could help clarify $\kappa$ And b's chemistry and whether its spectrum provides an insight into its formation environment.