Imaging the 44 AU Kuiper Belt-analogue debris ring around HD 141569A   with GPI polarimetry

J. S. Bruzzone; S. Metchev; G. Duchene; M. A. Millar-Blanchaer; R.; Dong; J. J. Wang; J. R. Graham; J. Mazoyer; S. Wolff; S. M. Ammons; A. C.; Schneider; A. Z. Greenbaum; B. C. Matthews; P. Arriaga; V. P. Bailey; T.; Barman; J. Bulger; J. Chilcote; T. Cotten; R. J. De Rosa; R. Doyon; M. P.; Fitzgerald; K. B. Follette; B. L. Gerard; S. J. Goodsell; P. Hibon; J. Hom,; L.-W. Hung; P. Ingraham; P. Kalas; Q. Konopacky; J. E. Larkin; B. Macintosh,; J. Maire; F. Marchis; C. Marois; K. M. Morzinski; E. L. Nielsen; R.; Oppenheimer; D. Palmer; R. Patel; J. Patience; M. Perrin; L. Poyneer; L.; Pueyo; A. Rajan; J. Rameau; F. T. Rantakyro; D. Savransky; A.; Sivaramakrishnan; I. Song; R. Soummer; S. Thomas; J. K. Wallace; K.; Ward-Duong; S. Wiktorowicz

arXiv:1911.11814·astro-ph.SR·February 12, 2020

Imaging the 44 AU Kuiper Belt-analogue debris ring around HD 141569A with GPI polarimetry

J. S. Bruzzone, S. Metchev, G. Duchene, M. A. Millar-Blanchaer, R., Dong, J. J. Wang, J. R. Graham, J. Mazoyer, S. Wolff, S. M. Ammons, A. C., Schneider, A. Z. Greenbaum, B. C. Matthews, P. Arriaga, V. P. Bailey, T., Barman, J. Bulger, J. Chilcote, T. Cotten, R. J. De Rosa

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TL;DR

This study presents the first polarimetric imaging of the inner debris disk around HD 141569A, revealing detailed structure, a spiral arm, and insights into dust properties and disk activity.

Contribution

It provides the first high signal-to-noise polarimetric detection of the inner disk component around HD 141569A and models its dust properties and structure.

Findings

01

Detected the inner disk component with high SNR using GPI polarimetry.

02

Identified a spiral arm coincident with CO emission, indicating active dynamics.

03

Model suggests an optically thin disk with ongoing dust production.

Abstract

We present the first polarimetric detection of the inner disk component around the pre-main sequence B9.5 star HD 141569A. Gemini Planet Imager H-band (1.65 micron) polarimetric differential imaging reveals the highest signal-to-noise ratio detection of this ring yet attained and traces structure inwards to 0.25" (28 AU at a distance of 111 pc). The radial polarized intensity image shows the east side of the disk, peaking in intensity at 0.40" (44 AU) and extending out to 0.9" (100 AU). There is a spiral arm-like enhancement to the south, reminiscent of the known spiral structures on the outer rings of the disk. The location of the spiral arm is coincident with 12CO J=3-2 emission detected by ALMA, and hints at a dynamically active inner circumstellar region. Our observations also show a portion of the middle dusty ring at ~220 AU known from previous observations of this system. We fit…

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