Atmospheres of brown dwarfs

Christiane Helling; Sarah Casewell

doi:10.1007/s00159-014-0080-0

Atmospheres of brown dwarfs

Christiane Helling, Sarah Casewell

School of Physics and Astronomy

Research output: Contribution to journal › Review article › peer-review

Abstract

Brown Dwarfs are the coolest class of stellar objects known to date. Our present perception is that Brown Dwarfs follow the principles of star formation, and that Brown Dwarfs share many characteristics with planets. Being the darkest and lowest mass stars known makes Brown Dwarfs also the coolest stars known. This has profound implication for their spectral fingerprints. Brown Dwarfs cover a range of effective temperatures which cause brown dwarfs atmospheres to be a sequence that gradually changes from a M-dwarf-like spectrum into a planet-like spectrum. This further implies that below an effective temperature of ≲ 2800K, clouds form already in atmospheres of objects marking the boundary between M-Dwarfs and brown dwarfs. Recent developments have sparked the interest in plasma processes in such very cool atmospheres: sporadic and quiescent radio emission has been observed in combination with decaying Xray-activity indicators across the fully convective boundary.

Original language	English
Article number	80
Number of pages	45
Journal	Astronomy and Astrophysics Review
Volume	22
Early online date	16 Nov 2014
DOIs	https://doi.org/10.1007/s00159-014-0080-0
Publication status	Published - 2014

Keywords

Stars: brown dwarfs
Stars: low-mass
Stars: atmospheres
Infrared: stars
Radio lines: stars
X-rays: stars

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10.1007/s00159-014-0080-0

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© 2014, Springer. This work is made available online in accordance with the publisher’s policies. This is the author created, accepted version manuscript following peer review and may differ slightly from the final published version. The final publication is available at Springer via http://dx.doi.org/10.1007/s00159-014-0080-0
Accepted author manuscript, 2.48 MB

AGN Echo mapping: AGN Echo Mapping and Mineral Clouds in Alien Atmospheres
Horne, K. D. (PI)
Science & Technology Facilities Council
1/04/12 → 31/08/12
Project: Standard
Astrophysics at St Andrews:2012 - 2014: Astrophysics at St Andrews: 2012 - 2014
Horne, K. D. (PI)
Science & Technology Facilities Council
1/10/11 → 31/03/12
Project: Standard

Cite this

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title = "Atmospheres of brown dwarfs",

abstract = "Brown Dwarfs are the coolest class of stellar objects known to date. Our present perception is that Brown Dwarfs follow the principles of star formation, and that Brown Dwarfs share many characteristics with planets. Being the darkest and lowest mass stars known makes Brown Dwarfs also the coolest stars known. This has profound implication for their spectral fingerprints. Brown Dwarfs cover a range of effective temperatures which cause brown dwarfs atmospheres to be a sequence that gradually changes from a M-dwarf-like spectrum into a planet-like spectrum. This further implies that below an effective temperature of ≲ 2800K, clouds form already in atmospheres of objects marking the boundary between M-Dwarfs and brown dwarfs. Recent developments have sparked the interest in plasma processes in such very cool atmospheres: sporadic and quiescent radio emission has been observed in combination with decaying Xray-activity indicators across the fully convective boundary.",

keywords = "Stars: brown dwarfs, Stars: low-mass, Stars: atmospheres, Infrared: stars, Radio lines: stars, X-rays: stars",

author = "Christiane Helling and Sarah Casewell",

note = "ChH highlights financial support of the European Community under the FP7 by an ERC starting grant. SLC acknowledges financial support of University of Leicester ",

year = "2014",

doi = "10.1007/s00159-014-0080-0",

language = "English",

volume = "22",

journal = "Astronomy and Astrophysics Review",

issn = "0935-4956",

publisher = "Springer-Verlag",

}

TY - JOUR

T1 - Atmospheres of brown dwarfs

AU - Helling, Christiane

AU - Casewell, Sarah

N1 - ChH highlights financial support of the European Community under the FP7 by an ERC starting grant. SLC acknowledges financial support of University of Leicester

PY - 2014

Y1 - 2014

N2 - Brown Dwarfs are the coolest class of stellar objects known to date. Our present perception is that Brown Dwarfs follow the principles of star formation, and that Brown Dwarfs share many characteristics with planets. Being the darkest and lowest mass stars known makes Brown Dwarfs also the coolest stars known. This has profound implication for their spectral fingerprints. Brown Dwarfs cover a range of effective temperatures which cause brown dwarfs atmospheres to be a sequence that gradually changes from a M-dwarf-like spectrum into a planet-like spectrum. This further implies that below an effective temperature of ≲ 2800K, clouds form already in atmospheres of objects marking the boundary between M-Dwarfs and brown dwarfs. Recent developments have sparked the interest in plasma processes in such very cool atmospheres: sporadic and quiescent radio emission has been observed in combination with decaying Xray-activity indicators across the fully convective boundary.

AB - Brown Dwarfs are the coolest class of stellar objects known to date. Our present perception is that Brown Dwarfs follow the principles of star formation, and that Brown Dwarfs share many characteristics with planets. Being the darkest and lowest mass stars known makes Brown Dwarfs also the coolest stars known. This has profound implication for their spectral fingerprints. Brown Dwarfs cover a range of effective temperatures which cause brown dwarfs atmospheres to be a sequence that gradually changes from a M-dwarf-like spectrum into a planet-like spectrum. This further implies that below an effective temperature of ≲ 2800K, clouds form already in atmospheres of objects marking the boundary between M-Dwarfs and brown dwarfs. Recent developments have sparked the interest in plasma processes in such very cool atmospheres: sporadic and quiescent radio emission has been observed in combination with decaying Xray-activity indicators across the fully convective boundary.

KW - Stars: brown dwarfs

KW - Stars: low-mass

KW - Stars: atmospheres

KW - Infrared: stars

KW - Radio lines: stars

KW - X-rays: stars

U2 - 10.1007/s00159-014-0080-0

DO - 10.1007/s00159-014-0080-0

M3 - Review article

SN - 0935-4956

VL - 22

JO - Astronomy and Astrophysics Review

JF - Astronomy and Astrophysics Review

M1 - 80

ER -

Atmospheres of brown dwarfs

Abstract

Keywords

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Projects

AGN Echo mapping: AGN Echo Mapping and Mineral Clouds in Alien Atmospheres

Astrophysics at St Andrews:2012 - 2014: Astrophysics at St Andrews: 2012 - 2014

Cite this