CHARACTERIZING CO FOURTH POSITIVE EMISSION IN YOUNG CIRCUMSTELLAR DISKS

Carbon monoxide is a commonly used IR/submillimeter tracer of gas in protoplanetary disks. We present an analysis of ultraviolet CO emission in Hubble Space Telescope Cosmic Origins Spectrograph spectra for 12 Classical T Tauri stars (CTTSs). Several ro-vibrational bands of the CO A super(1)[product...

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Veröffentlicht in:	The Astrophysical journal 2012-02, Vol.746 (1), p.1-14
Hauptverfasser:	SCHINDHELM, Eric, FRANCE, Kevin, BURGH, Eric B, HERCZEG, Gregory J, GREEN, James C, BROWN, Alexander, BROWN, Joanna M, VALENTI, Jeff A
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Sprache:	eng
Schlagworte:	ABSORPTION ACCRETION DISKS Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Carbon monoxide Density Earth, ocean, space Electronics Emission Emission analysis Exact sciences and technology Excitation FLUORESCENCE HYDROGEN PHOTONS PROTOPLANETS Spectral emissivity T TAURI STARS TELESCOPES Ultraviolet ULTRAVIOLET RADIATION
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creator	SCHINDHELM, Eric FRANCE, Kevin BURGH, Eric B HERCZEG, Gregory J GREEN, James C BROWN, Alexander BROWN, Joanna M VALENTI, Jeff A
description	Carbon monoxide is a commonly used IR/submillimeter tracer of gas in protoplanetary disks. We present an analysis of ultraviolet CO emission in Hubble Space Telescope Cosmic Origins Spectrograph spectra for 12 Classical T Tauri stars (CTTSs). Several ro-vibrational bands of the CO A super(1)[productoperator]-X super(1)[summationoperator] super(+) (Fourth Positive) electronic transition system are spectrally resolved from emission of other atoms and H sub(2). The CO A super(1)[productoperator] v' = 14 state is populated by absorption of Ly alpha photons, created at the accretion column on the stellar surface. For targets with strong CO emission, we model the Ly alpha radiation field as an input for a simple fluorescence model to estimate CO rotational excitation temperatures and column densities. Typical column densities range from N sub(CO) = 10 super(18) to 10 super(19) cm super(-2). Our measured excitation temperatures are mostly below T sub(CO) = 600 K, cooler than typical M-band CO emission. These temperatures and the emission line widths imply that the UV emission originates in a different population of CO than that which is IR-emitting. We also find a significant correlation between CO emission and the disk accretion rate M and age. Our analysis shows that ultraviolet CO emission can be a useful diagnostic of CTTS disk gas.
doi_str_mv	10.1088/0004-637X/746/1/97
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We present an analysis of ultraviolet CO emission in Hubble Space Telescope Cosmic Origins Spectrograph spectra for 12 Classical T Tauri stars (CTTSs). Several ro-vibrational bands of the CO A super(1)[productoperator]-X super(1)[summationoperator] super(+) (Fourth Positive) electronic transition system are spectrally resolved from emission of other atoms and H sub(2). The CO A super(1)[productoperator] v' = 14 state is populated by absorption of Ly alpha photons, created at the accretion column on the stellar surface. For targets with strong CO emission, we model the Ly alpha radiation field as an input for a simple fluorescence model to estimate CO rotational excitation temperatures and column densities. Typical column densities range from N sub(CO) = 10 super(18) to 10 super(19) cm super(-2). Our measured excitation temperatures are mostly below T sub(CO) = 600 K, cooler than typical M-band CO emission. These temperatures and the emission line widths imply that the UV emission originates in a different population of CO than that which is IR-emitting. We also find a significant correlation between CO emission and the disk accretion rate M and age. 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We present an analysis of ultraviolet CO emission in Hubble Space Telescope Cosmic Origins Spectrograph spectra for 12 Classical T Tauri stars (CTTSs). Several ro-vibrational bands of the CO A super(1)[productoperator]-X super(1)[summationoperator] super(+) (Fourth Positive) electronic transition system are spectrally resolved from emission of other atoms and H sub(2). The CO A super(1)[productoperator] v' = 14 state is populated by absorption of Ly alpha photons, created at the accretion column on the stellar surface. For targets with strong CO emission, we model the Ly alpha radiation field as an input for a simple fluorescence model to estimate CO rotational excitation temperatures and column densities. Typical column densities range from N sub(CO) = 10 super(18) to 10 super(19) cm super(-2). Our measured excitation temperatures are mostly below T sub(CO) = 600 K, cooler than typical M-band CO emission. These temperatures and the emission line widths imply that the UV emission originates in a different population of CO than that which is IR-emitting. We also find a significant correlation between CO emission and the disk accretion rate M and age. Our analysis shows that ultraviolet CO emission can be a useful diagnostic of CTTS disk gas.</description><subject>ABSORPTION</subject><subject>ACCRETION DISKS</subject><subject>Astronomy</subject><subject>ASTROPHYSICS, COSMOLOGY AND ASTRONOMY</subject><subject>Carbon monoxide</subject><subject>Density</subject><subject>Earth, ocean, space</subject><subject>Electronics</subject><subject>Emission</subject><subject>Emission analysis</subject><subject>Exact sciences and technology</subject><subject>Excitation</subject><subject>FLUORESCENCE</subject><subject>HYDROGEN</subject><subject>PHOTONS</subject><subject>PROTOPLANETS</subject><subject>Spectral emissivity</subject><subject>T TAURI STARS</subject><subject>TELESCOPES</subject><subject>Ultraviolet</subject><subject>ULTRAVIOLET RADIATION</subject><issn>0004-637X</issn><issn>1538-4357</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><recordid>eNqN0c9LwzAUB_AgCs7pP-CpIIKXurymaZLjqN0WnKv0h6iXkGUpVuY6m3rwv7dl4tnT48Hn-z28h9Al4FvAnE8wxqEfEfY8YWE0gYlgR2gElHA_JJQdo9EfOEVnzr0PayDECM3jxTSbxkWSyVe5mntx6s3SMisW3mOay0I-JV7yIPNcpitPrryXtByQzOLyIS-S5XKaeXcyv8_P0Umlt85e_M4xKmdJES_8ZTqX8XTpmxBo58OaE0LX1DJOOayN1pYRogUx6wrjynKNAUD3VjCx4WEEFWBNNtUmrJjAhIzR1aG3cV2tnKk7a95Ms9tZ06kg6NOMiV7dHNS-bT6_rOvUR-2M3W71zjZfTkHEKeOYRf-hLCIRMMp7GhyoaRvnWlupfVt_6PZbAVbDG9RwVjVcWfVvUKAE60PXv_3aGb2tWr0ztftLBjTkIsJAfgAFIH9T</recordid><startdate>20120210</startdate><enddate>20120210</enddate><creator>SCHINDHELM, Eric</creator><creator>FRANCE, Kevin</creator><creator>BURGH, Eric B</creator><creator>HERCZEG, Gregory J</creator><creator>GREEN, James C</creator><creator>BROWN, Alexander</creator><creator>BROWN, Joanna M</creator><creator>VALENTI, Jeff A</creator><general>IOP</general><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>KL.</scope><scope>8FD</scope><scope>FR3</scope><scope>H8D</scope><scope>KR7</scope><scope>L7M</scope><scope>OTOTI</scope><orcidid>https://orcid.org/0000-0002-1345-3434</orcidid></search><sort><creationdate>20120210</creationdate><title>CHARACTERIZING CO FOURTH POSITIVE EMISSION IN YOUNG CIRCUMSTELLAR DISKS</title><author>SCHINDHELM, Eric ; 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subjects	ABSORPTION ACCRETION DISKS Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Carbon monoxide Density Earth, ocean, space Electronics Emission Emission analysis Exact sciences and technology Excitation FLUORESCENCE HYDROGEN PHOTONS PROTOPLANETS Spectral emissivity T TAURI STARS TELESCOPES Ultraviolet ULTRAVIOLET RADIATION
title	CHARACTERIZING CO FOURTH POSITIVE EMISSION IN YOUNG CIRCUMSTELLAR DISKS
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