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Variable Asymmetry of the Circumstellar Envelope in IK Tauri Traced by SiO Maser Emission

Authors :
Tomoharu Kurayama
Rie Shimizu
Mareki Honma
Hiroshi Suda
Kasumi Sora
Chung Sik Oh
Yukitoshi Kan-ya
Kenzaburo Iwadate
Yoshiaki Sofue
Katsunori M. Shibata
Ryuichi Kamohara
Takeshi Miyaji
Toshihiro Omodaka
Kazuyoshi Yamashita
Toshihisa Maeda
Tomoya Hirota
Tetsuo Sasao
Yoshiaki Tamura
Tomoaki Oyama
Seisuke Kuji
Osamu Kameya
Seiji Manabe
Noritomo Inomata
Takeshi Bushimata
Akiharu Nakagawa
Takumi Nagayama
Noriyuki Kawaguchi
Hideyuki Kobayashi
Hiroshi Imai
Naoko Matsumoto
Motonobu Shintani
Koichiro Nakashima
Sei-ichiro Sakakibara
Yoon Kyung Choi
Takaaki Jike
Seiji Kameno
Miyuki Tsushima
Satoshi Sakai
Katsuhisa Sato
Source :
Publications of the Astronomical Society of Japan. 60:1039-1050
Publication Year :
2008
Publisher :
Oxford University Press (OUP), 2008.

Abstract

We observed the SiO (v = 1 and v = 2, J = 1–0) maser emissions toward the Mira variable IK Tauri (IK Tau, NML Tau, IRC +10050) over nine epochs from 2003 November to 2005 April using the VLBI Exploration of Radio Astrometry (VERA) telescope array. We found that the SiO maser distributions around IK Tau are highly variable, depending on the stellar pulsation phase. The velocity structures were complex and also time-variable, and are inconsistent with a simply rotating shell that was suggested by previous observations. Based on fittings of the SiO maser distributions to elliptical ring models, we found that the ring size seems to vary in correlation with the pulsation phase, as previously found for TX Cam. Comparisons of the v = 1 and v = 2 maser distributions reveal that 42–50% of the maser pairs have a positional offset less than 0.5 mas, suggesting that the maser pumping in these spots is likely to be dominated by line overlapping or collisional pumping, rather than pure radiative pumping. In order to model the velocity structure of the spoke-like features observed in IK Tau, we propose a ballistic-orbit model, in which a gas clump ejected from the stellar surface moves radially outward with a gravitational deceleration, and argue that the stellar mass can be deduced from that model.

Details

ISSN :
2053051X and 00046264
Volume :
60
Database :
OpenAIRE
Journal :
Publications of the Astronomical Society of Japan
Accession number :
edsair.doi...........d0cd72926e40b3bb75f6510b8140d3d9
Full Text :
https://doi.org/10.1093/pasj/60.5.1039