Stringent limits on the ionized mass loss from A and F dwarfs

Alexander Brown; Anthony Vealé; Philip Judge; Jay A. Bookbinder; Ivan Hubeny

doi:10.1086/169186

Stringent limits on the ionized mass loss from A and F dwarfs

Alexander Brown, Anthony Vealé, Philip Judge, Jay A. Bookbinder, Ivan Hubeny

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Following the suggestion of Willson, Bowen, and Struck-Marcell that A- and F-type main-sequence stars might undergo significant mass loss due to pulsationally driven winds, we have obtained upper limits to the ionized mass loss from A and F dwarfs using VLA observations. These stringent upper limits show that the level of ionized mass loss would have at most only a small effect on stellar evolution. Radiative equilibrium atmospheric and wind models for early A dwarfs indicate that it is highly likely that a wind flowing from such stars would be significantly ionized. In addition, late A and early F dwarfs exhibit chromospheric emission indicative of significant nonradiative heating. Our mass-loss limits are thus representative of the total mass-loss rates for these stars. Therefore, we conclude that A and F dwarfs are not losing sufficient mass to cause A dwarfs to evolve into G dwarfs as has been proposed.

Original language	English
Pages (from-to)	220-224
Number of pages	5
Journal	Astrophysical Journal
Volume	361
Issue number	1
DOIs	https://doi.org/10.1086/169186
State	Published - Sep 20 1990
Externally published	Yes

Keywords

Stars: evolution
Stars: mass loss
Stars: pulsation
Stars: radio radiation

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10.1086/169186

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title = "Stringent limits on the ionized mass loss from A and F dwarfs",

abstract = "Following the suggestion of Willson, Bowen, and Struck-Marcell that A- and F-type main-sequence stars might undergo significant mass loss due to pulsationally driven winds, we have obtained upper limits to the ionized mass loss from A and F dwarfs using VLA observations. These stringent upper limits show that the level of ionized mass loss would have at most only a small effect on stellar evolution. Radiative equilibrium atmospheric and wind models for early A dwarfs indicate that it is highly likely that a wind flowing from such stars would be significantly ionized. In addition, late A and early F dwarfs exhibit chromospheric emission indicative of significant nonradiative heating. Our mass-loss limits are thus representative of the total mass-loss rates for these stars. Therefore, we conclude that A and F dwarfs are not losing sufficient mass to cause A dwarfs to evolve into G dwarfs as has been proposed.",

keywords = "Stars: evolution, Stars: mass loss, Stars: pulsation, Stars: radio radiation",

author = "Alexander Brown and Anthony Veal{\'e} and Philip Judge and Bookbinder, \{Jay A.\} and Ivan Hubeny",

year = "1990",

month = sep,

day = "20",

doi = "10.1086/169186",

language = "English",

volume = "361",

pages = "220--224",

journal = "Astrophysical Journal",

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TY - JOUR

T1 - Stringent limits on the ionized mass loss from A and F dwarfs

AU - Brown, Alexander

AU - Vealé, Anthony

AU - Judge, Philip

AU - Bookbinder, Jay A.

AU - Hubeny, Ivan

PY - 1990/9/20

Y1 - 1990/9/20

N2 - Following the suggestion of Willson, Bowen, and Struck-Marcell that A- and F-type main-sequence stars might undergo significant mass loss due to pulsationally driven winds, we have obtained upper limits to the ionized mass loss from A and F dwarfs using VLA observations. These stringent upper limits show that the level of ionized mass loss would have at most only a small effect on stellar evolution. Radiative equilibrium atmospheric and wind models for early A dwarfs indicate that it is highly likely that a wind flowing from such stars would be significantly ionized. In addition, late A and early F dwarfs exhibit chromospheric emission indicative of significant nonradiative heating. Our mass-loss limits are thus representative of the total mass-loss rates for these stars. Therefore, we conclude that A and F dwarfs are not losing sufficient mass to cause A dwarfs to evolve into G dwarfs as has been proposed.

AB - Following the suggestion of Willson, Bowen, and Struck-Marcell that A- and F-type main-sequence stars might undergo significant mass loss due to pulsationally driven winds, we have obtained upper limits to the ionized mass loss from A and F dwarfs using VLA observations. These stringent upper limits show that the level of ionized mass loss would have at most only a small effect on stellar evolution. Radiative equilibrium atmospheric and wind models for early A dwarfs indicate that it is highly likely that a wind flowing from such stars would be significantly ionized. In addition, late A and early F dwarfs exhibit chromospheric emission indicative of significant nonradiative heating. Our mass-loss limits are thus representative of the total mass-loss rates for these stars. Therefore, we conclude that A and F dwarfs are not losing sufficient mass to cause A dwarfs to evolve into G dwarfs as has been proposed.

KW - Stars: evolution

KW - Stars: mass loss

KW - Stars: pulsation

KW - Stars: radio radiation

UR - https://www.scopus.com/pages/publications/0000333592

U2 - 10.1086/169186

DO - 10.1086/169186

M3 - Article

AN - SCOPUS:0000333592

SN - 0004-637X

VL - 361

SP - 220

EP - 224

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

ER -

Stringent limits on the ionized mass loss from A and F dwarfs

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Keywords

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