New Results on the Binary Companion of T Tauri

AbstractFor life to develop, planets are a necessary condition. Likewise, for planets to form, stars must be surrounded by circumstellar disks, at least some time during their pre-main sequence evolution. Much progress has been made recently in the study of young solar-like stars. In the optical domain, these stars are known as «T Tauri stars». A significant number show IR excess, and other phenomena indirectly suggesting the presence of circumstellar disks. The current wisdom is that there is an evolutionary sequence from protostars to T Tauri stars. This sequence is characterized by the initial presence of disks, with lifetimes ~ 1-10 Myr after the intial collapse of a dense envelope having given birth to a star. While they are present, about 30% of the disks have masses larger than the minimum solar nebula. Their disappearance may correspond to the growth of dust grains, followed by planetesimal and planet formation, but this is not yet demonstrated.

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Periodic Accretion in the T Tauri Binary UZ Tau E

Astronomy Reports ◽

10.1134/s1063772919120072 ◽

2019 ◽

Vol 63 (12) ◽

pp. 1045-1055

Author(s):

A. Yu. Sytov ◽

A. M. Fateeva

Keyword(s):

T Tauri

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Emission-Line Diagnostics of T Tauri Magnetospheric Accretion. I. Line Profile Observations

The Astronomical Journal ◽

10.1086/300428 ◽

1998 ◽

Vol 116 (1) ◽

pp. 455-468 ◽

Cited By ~ 168

Author(s):

James Muzerolle ◽

Lee Hartmann ◽

Nuria Calvet

Keyword(s):

Emission Line ◽

Line Profile ◽

T Tauri ◽

Magnetospheric Accretion

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A Deep Long‐Slit Spectroscopic Study of the Two Bipolar Outflows from the T Tauri Binary System

The Astrophysical Journal ◽

10.1086/307760 ◽

1999 ◽

Vol 523 (2) ◽

pp. 709-720 ◽

Cited By ~ 34

Author(s):

J. Solf ◽

K.‐H. Bohm

Keyword(s):

Binary System ◽

Spectroscopic Study ◽

Bipolar Outflows ◽

T Tauri

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The Bright Accretion Rings on Magnetic T Tauri Stars

The Astrophysical Journal ◽

10.1086/305443 ◽

1998 ◽

Vol 497 (1) ◽

pp. 342-353 ◽

Cited By ~ 26

Author(s):

Andisheh Mahdavi ◽

Scott J. Kenyon

Keyword(s):

T Tauri Stars ◽

T Tauri

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The Observational Evidence for Accretion

Symposium - International Astronomical Union ◽

10.1017/s0074180900061805 ◽

1997 ◽

Vol 182 ◽

pp. 391-405 ◽

Cited By ~ 2

Author(s):

Lee Hartmann

Keyword(s):

Large Range ◽

Observational Evidence ◽

Young Stars ◽

Young Stellar Objects ◽

Stellar Objects ◽

T Tauri ◽

Accretion Rates ◽

Low Mass ◽

Stellar Magnetospheres ◽

Mass Ejection

Outflows from low-mass young stellar objects are thought to draw upon the energy released by accretion onto T Tauri stars. I briefly summarize the evidence for this accretion and outline present estimates of mass accretion rates. Young stars show a very large range of accretion rates, and this has important implications for both mass ejection and for the structure of stellar magnetospheres which may truncate T Tauri disks.

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Very Low-Luminosity Objects in Star-Forming Regions

Highlights of Astronomy ◽

10.1017/s1539299600021626 ◽

1998 ◽

Vol 11 (1) ◽

pp. 423-424

Author(s):

Motohide Tamura ◽

Yoichi Itoh ◽

Yumiko Oasa ◽

Alan Tokunaga ◽

Koji Sugitani

Keyword(s):

Brown Dwarfs ◽

Mass Function ◽

T Tauri Stars ◽

Initial Mass Function ◽

Formation Mechanisms ◽

Star Forming ◽

Star Forming Regions ◽

T Tauri ◽

Low Mass ◽

Stellar Sources

Abstract In order to tackle the problems of low-mass end of the initial mass function (IMF) in star-forming regions and the formation mechanisms of brown dwarfs, we have conducted deep infrared surveys of nearby molecular clouds. We have found a significant population of very low-luminosity sources with IR excesses in the Taurus cloud and the Chamaeleon cloud core regions whose extinction corrected J magnitudes are 3 to 8 mag fainter than those of typical T Tauri stars in the same cloud. Some of them are associated with even fainter companions. Follow-up IR spectroscopy has confirmed for the selected sources that their photospheric temperature is around 2000 to 3000 K. Thus, these very low-luminosity young stellar sources are most likely very low-mass T Tauri stars, and some of them might even be young brown dwarfs.

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Probing Signatures of a Distant Planet around the Young T-Tauri Star CI Tau Hosting a Possible Hot Jupiter

The Astrophysical Journal ◽

10.3847/2041-8213/aac6d2 ◽

2018 ◽

Vol 859 (2) ◽

pp. L28 ◽

Cited By ~ 2

Author(s):

Mihoko Konishi ◽

Jun Hashimoto ◽

Yasunori Hori

Keyword(s):

Tauri Star ◽

T Tauri ◽

Hot Jupiter

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Can complex T Tauri star light curves be modelled with star-spots?

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa3347 ◽

2020 ◽

Vol 500 (1) ◽

pp. 1366-1379

Author(s):

C Koen

Keyword(s):

Ridge Regression ◽

Young Stars ◽

Light Curves ◽

Stellar Surface ◽

Tauri Star ◽

T Tauri ◽

Almost All

ABSTRACT ‘Transiting Exoplanet Survey Satellite’ photometry of 10 young stars with very complex periodic light curves is considered. Previous findings that these cannot be due to dark surface spots are re-evaluated by allowing arbitrarily shaped areas on the stellar surface to have sub-photospheric fluxes. This is done by approximating flux integrals by sums over surface elements. The unknown ratios of spot to photospheric fluxes are determined by lasso or ridge regression procedures. It is found that almost all light curves can be modelled very accurately in this way. The usual, if rarely stated, caveat applies – star-spot models presented in the paper are not unique.

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Aperture synthesis CS and 98 GHz continuum observations of protostellar IRAS sources in Taurus

Symposium - International Astronomical Union ◽

10.1017/s0074180900239673 ◽

1991 ◽

Vol 147 ◽

pp. 353-356

Author(s):

N. Ohashi ◽

R. Kawabe ◽

M. Hayashi ◽

M. Ishiguro

Keyword(s):

Molecular Cloud ◽

Total Mass ◽

T Tauri Stars ◽

Continuum Emission ◽

Beam Size ◽

Dust Grains ◽

Dynamical Mass ◽

T Tauri ◽

Cloud Cores ◽

The Continuum

The CS (J = 2 — 1) line and 98 GHz continuum emission have been observed for 11 protostellar IRAS sources in the Taurus molecular cloud with resolutions of 2.6″−8.8″ (360 AU—1200 AU) using the Nobeyama Millimeter Array (NMA). The CS emission is detected only toward embedded sources, while the continuum emission from dust grains is detected only toward visible T Tauri stars except for one embedded source, L1551-IRS5. This suggests that the dust grains around the embedded sources do not centrally concentrate enough to be detected with our sensitivity (∼4 m Jy r.m.s), while dust grains in disks around the T Tauri stars have enough total mass to be detected with the NMA. The molecular cloud cores around the embedded sources are moderately extended and dense enough to be detected in CS, while gas disks around the T Tauri are not detected because the radius of such gas disks may be smaller than 70 (50 K/Tex) AU. These results imply that the total amount of matter within the NMA beam size must increase when the central objects evolve into T Tauri stars from embedded sources, suggesting that the compact and highly dense disks around T Tauri stars are formed by the dynamical mass accretion during the embedded protostar phase.

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