Possible Progression of Mass-flow Processes around Young Intermediate-mass Stars Based on High-resolution Near-infrared Spectroscopy. I. Taurus

We used the WINERED spectrograph to perform near-infrared high-resolution spectroscopy (resolving power R = 28,000) of 13 young intermediate-mass stars in the Taurus star-forming region. Based on the presence of near- and mid-infrared continuum emission, young intermediate-mass stars can be classifi...

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Veröffentlicht in:	The Astrophysical journal 2019-12, Vol.886 (2), p.115
Hauptverfasser:	Yasui, Chikako, Hamano, Satoshi, Fukue, Kei, Kondo, Sohei, Sameshima, Hiroaki, Takenaka, Keiichi, Matsunaga, Noriyuki, Ikeda, Yuji, Kawakita, Hideyo, Otsubo, Shogo, Watase, Ayaka, Taniguchi, Daisuke, Mizumoto, Misaki, Izumi, Natsuko, Kobayashi, Naoto
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Schlagworte:	Absorption Accretion disks accretion, accretion disks Astrophysics Continuum radiation Emissions High resolution Infrared spectra Infrared spectroscopy infrared: stars Magnetospheres Mass flow Morphology Near infrared radiation Near infrared spectroscopy Opacity Phases Planet formation Protoplanetary disks Protoplanets Resolution Spectrum analysis Star formation Stars stars: formation stars: pre-main sequence stars: winds, outflows Stellar evolution Stellar winds
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creator	Yasui, Chikako Hamano, Satoshi Fukue, Kei Kondo, Sohei Sameshima, Hiroaki Takenaka, Keiichi Matsunaga, Noriyuki Ikeda, Yuji Kawakita, Hideyo Otsubo, Shogo Watase, Ayaka Taniguchi, Daisuke Mizumoto, Misaki Izumi, Natsuko Kobayashi, Naoto
description	We used the WINERED spectrograph to perform near-infrared high-resolution spectroscopy (resolving power R = 28,000) of 13 young intermediate-mass stars in the Taurus star-forming region. Based on the presence of near- and mid-infrared continuum emission, young intermediate-mass stars can be classified into three different evolutionary stages: Phases I, II, and III in the order of evolution. Our obtained spectra (λ = 0.91-1.35 m) depict He i λ10830 and Pβ lines that are sensitive to magnetospheric accretion and winds. We also investigate five sources each for Pβ and He i lines that were obtained from previous studies along with our targets. We observe that the Pβ profile morphologies in Phases I and II corresponded to an extensive variety of emission features; however, these features are not detected in Phase III. We also observe that the He i profile morphologies are mostly broad subcontinuum absorption lines in Phase I, narrow subcontinuum absorption lines in Phase II, and centered subcontinuum absorption features in Phase III. Our results indicate that the profile morphologies exhibit a progression of the dominant mass-flow processes: stellar wind and probably magnetospheric accretion in the very early stage, magnetospheric accretion and disk wind in the subsequent stage, and no activities in the final stage. These interpretations further suggest that opacity in protoplanetary disks plays an important role in mass-flow processes. Results also indicate that He i absorption features in Phase III sources, associated with chromospheric activities even in such young phases, are characteristics of intermediate-mass stars.
doi_str_mv	10.3847/1538-4357/ab45ee
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I. Taurus</title><source>Institute of Physics Open Access Journal Titles</source><creator>Yasui, Chikako ; Hamano, Satoshi ; Fukue, Kei ; Kondo, Sohei ; Sameshima, Hiroaki ; Takenaka, Keiichi ; Matsunaga, Noriyuki ; Ikeda, Yuji ; Kawakita, Hideyo ; Otsubo, Shogo ; Watase, Ayaka ; Taniguchi, Daisuke ; Mizumoto, Misaki ; Izumi, Natsuko ; Kobayashi, Naoto</creator><creatorcontrib>Yasui, Chikako ; Hamano, Satoshi ; Fukue, Kei ; Kondo, Sohei ; Sameshima, Hiroaki ; Takenaka, Keiichi ; Matsunaga, Noriyuki ; Ikeda, Yuji ; Kawakita, Hideyo ; Otsubo, Shogo ; Watase, Ayaka ; Taniguchi, Daisuke ; Mizumoto, Misaki ; Izumi, Natsuko ; Kobayashi, Naoto</creatorcontrib><description>We used the WINERED spectrograph to perform near-infrared high-resolution spectroscopy (resolving power R = 28,000) of 13 young intermediate-mass stars in the Taurus star-forming region. Based on the presence of near- and mid-infrared continuum emission, young intermediate-mass stars can be classified into three different evolutionary stages: Phases I, II, and III in the order of evolution. Our obtained spectra (λ = 0.91-1.35 m) depict He i λ10830 and Pβ lines that are sensitive to magnetospheric accretion and winds. We also investigate five sources each for Pβ and He i lines that were obtained from previous studies along with our targets. We observe that the Pβ profile morphologies in Phases I and II corresponded to an extensive variety of emission features; however, these features are not detected in Phase III. We also observe that the He i profile morphologies are mostly broad subcontinuum absorption lines in Phase I, narrow subcontinuum absorption lines in Phase II, and centered subcontinuum absorption features in Phase III. Our results indicate that the profile morphologies exhibit a progression of the dominant mass-flow processes: stellar wind and probably magnetospheric accretion in the very early stage, magnetospheric accretion and disk wind in the subsequent stage, and no activities in the final stage. These interpretations further suggest that opacity in protoplanetary disks plays an important role in mass-flow processes. Results also indicate that He i absorption features in Phase III sources, associated with chromospheric activities even in such young phases, are characteristics of intermediate-mass stars.</description><identifier>ISSN: 0004-637X</identifier><identifier>EISSN: 1538-4357</identifier><identifier>DOI: 10.3847/1538-4357/ab45ee</identifier><language>eng</language><publisher>Philadelphia: The American Astronomical Society</publisher><subject>Absorption ; Accretion disks ; accretion, accretion disks ; Astrophysics ; Continuum radiation ; Emissions ; High resolution ; Infrared spectra ; Infrared spectroscopy ; infrared: stars ; Magnetospheres ; Mass flow ; Morphology ; Near infrared radiation ; Near infrared spectroscopy ; Opacity ; Phases ; Planet formation ; Protoplanetary disks ; Protoplanets ; Resolution ; Spectrum analysis ; Star formation ; Stars ; stars: formation ; stars: pre-main sequence ; stars: winds, outflows ; Stellar evolution ; Stellar winds</subject><ispartof>The Astrophysical journal, 2019-12, Vol.886 (2), p.115</ispartof><rights>2019. 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I. Taurus</title><title>The Astrophysical journal</title><addtitle>APJ</addtitle><addtitle>Astrophys. J</addtitle><description>We used the WINERED spectrograph to perform near-infrared high-resolution spectroscopy (resolving power R = 28,000) of 13 young intermediate-mass stars in the Taurus star-forming region. Based on the presence of near- and mid-infrared continuum emission, young intermediate-mass stars can be classified into three different evolutionary stages: Phases I, II, and III in the order of evolution. Our obtained spectra (λ = 0.91-1.35 m) depict He i λ10830 and Pβ lines that are sensitive to magnetospheric accretion and winds. We also investigate five sources each for Pβ and He i lines that were obtained from previous studies along with our targets. We observe that the Pβ profile morphologies in Phases I and II corresponded to an extensive variety of emission features; however, these features are not detected in Phase III. We also observe that the He i profile morphologies are mostly broad subcontinuum absorption lines in Phase I, narrow subcontinuum absorption lines in Phase II, and centered subcontinuum absorption features in Phase III. Our results indicate that the profile morphologies exhibit a progression of the dominant mass-flow processes: stellar wind and probably magnetospheric accretion in the very early stage, magnetospheric accretion and disk wind in the subsequent stage, and no activities in the final stage. These interpretations further suggest that opacity in protoplanetary disks plays an important role in mass-flow processes. 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I. Taurus</atitle><jtitle>The Astrophysical journal</jtitle><stitle>APJ</stitle><addtitle>Astrophys. J</addtitle><date>2019-12-01</date><risdate>2019</risdate><volume>886</volume><issue>2</issue><spage>115</spage><pages>115-</pages><issn>0004-637X</issn><eissn>1538-4357</eissn><abstract>We used the WINERED spectrograph to perform near-infrared high-resolution spectroscopy (resolving power R = 28,000) of 13 young intermediate-mass stars in the Taurus star-forming region. Based on the presence of near- and mid-infrared continuum emission, young intermediate-mass stars can be classified into three different evolutionary stages: Phases I, II, and III in the order of evolution. Our obtained spectra (λ = 0.91-1.35 m) depict He i λ10830 and Pβ lines that are sensitive to magnetospheric accretion and winds. We also investigate five sources each for Pβ and He i lines that were obtained from previous studies along with our targets. We observe that the Pβ profile morphologies in Phases I and II corresponded to an extensive variety of emission features; however, these features are not detected in Phase III. We also observe that the He i profile morphologies are mostly broad subcontinuum absorption lines in Phase I, narrow subcontinuum absorption lines in Phase II, and centered subcontinuum absorption features in Phase III. Our results indicate that the profile morphologies exhibit a progression of the dominant mass-flow processes: stellar wind and probably magnetospheric accretion in the very early stage, magnetospheric accretion and disk wind in the subsequent stage, and no activities in the final stage. These interpretations further suggest that opacity in protoplanetary disks plays an important role in mass-flow processes. 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subjects	Absorption Accretion disks accretion, accretion disks Astrophysics Continuum radiation Emissions High resolution Infrared spectra Infrared spectroscopy infrared: stars Magnetospheres Mass flow Morphology Near infrared radiation Near infrared spectroscopy Opacity Phases Planet formation Protoplanetary disks Protoplanets Resolution Spectrum analysis Star formation Stars stars: formation stars: pre-main sequence stars: winds, outflows Stellar evolution Stellar winds
title	Possible Progression of Mass-flow Processes around Young Intermediate-mass Stars Based on High-resolution Near-infrared Spectroscopy. I. Taurus
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