Mapping H-band Scattered Light Emission in the Mysterious SR21   Transitional Disk

Katherine B. Follette; Motohide Tamura; Jun Hashimoto; Barbara; Whitney; Carol Grady; Laird Close; Sean M. Andrews; Jungmi Kwon; John; Wisniewski; Timothy D. Brandt; Satoshi Mayama; Ryo Kandori; Ruobing Dong; Lyu; Abe; Wolfgang Brandner; Joseph Carson; Thayne Currie; Sebastian E. Egner,; Markus Feldt; Miwa Goto; Olivier Guyon; Yutaka Hayano; Masahiko Hayashi,; Saeko Hayashi; Thomas Henning; Klaus Hodapp; Miki Ishii; Masanori Iye; Markus; Janson; Gillian R. Knapp; Tomoyuki Kudo; Nobuhiko Kusakabe; Masayuki; Kuzuhara; Michael W. McElwain; Taro Matsuo; Shoken Miyama; Jun-Ichi Morino,; Amaya Moro-Martin; Tetsuo Nishimura; Tae-Soo Pyo; Eugene Serabyn; Hiroshi; Suto; Ryuji Suzuki; Michihiro Takami; Naruhisa Takato; Hiroshi Terada,; Christian Thalmann; Daigo Tomono; Edwin L. Turner; Makoto Watanabe; Toru; Yamada; Hideki Takami; Tomonori Usuda

arXiv:1302.5705·astro-ph.SR·August 22, 2013

Mapping H-band Scattered Light Emission in the Mysterious SR21 Transitional Disk

Katherine B. Follette, Motohide Tamura, Jun Hashimoto, Barbara, Whitney, Carol Grady, Laird Close, Sean M. Andrews, Jungmi Kwon, John, Wisniewski, Timothy D. Brandt, Satoshi Mayama, Ryo Kandori, Ruobing Dong, Lyu, Abe, Wolfgang Brandner, Joseph Carson, Thayne Currie

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TL;DR

This study provides the first near-infrared polarized light images of the SR21 transitional disk, revealing complex grain distribution and challenging simple depletion models, thereby advancing understanding of disk clearing mechanisms.

Contribution

First spatially resolved NIR images of SR21's disk, showing that small grains may survive or be generated despite large sub-mm cavity depletions.

Findings

01

H-band images show no break at the sub-mm cavity wall.

02

Surface grains in NIR may survive or be replenished despite depletion.

03

Radial polarized intensity profile suggests an optically thin disk envelope.

Abstract

We present the first near infrared (NIR) spatially resolved images of the circumstellar transitional disk around SR21. These images were obtained with the Subaru HiCIAO camera, adaptive optics and the polarized differential imaging (PDI) technique. We resolve the disk in scattered light at H-band for stellocentric 0.1"<r<0.6" (12<r<75AU). We compare our results with previously published spatially-resolved 880 micron continuum Submillimeter Array (SMA) images that show an inner r<36AU cavity in SR21. Radiative transfer models reveal that the large disk depletion factor invoked to explain SR21's sub-mm cavity cannot be "universal" for all grain sizes. Even significantly more moderate depletions (delta=0.1, 0.01 relative to an undepleted disk) than those that reproduce the sub-mm cavity (delta~10^-6) are inconsistent with our H-band images when they are assumed to carry over to small…

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