2017
DOI: 10.1080/21672857.2017.1353202
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Exozodiacal clouds: hot and warm dust around main sequence stars

Abstract: A warm/hot dust component (at temperature >300 K) has been detected around ∼20% of A, F, G, K stars. This component is called 'exozodiacal dust' as it presents similarities with the zodiacal dust detected in our solar system, even though its physical properties and spatial distribution can be significantly different. Understanding the origin and evolution of this dust is of crucial importance, not only because its presence could hamper future detections of Earthlike planets in their habitable zones, but also b… Show more

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Cited by 46 publications
(36 citation statements)
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References 160 publications
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“…This result is consistent with the result in Dwek et al (1998) of 10 −3 < M shell /M Earth < 10 2 at > 700 AU for β = 2 case. On the other hand, however, the total IPD mass is dominated by large particles (∼100 µm) from the dust size distribution around the Earth (Kral et al 2017). Although this dust size distribution is valid around the Earth, it is difficult to believe that the small IPD particles (a < 1 µm) is dominated in the outer Solar system.…”
Section: Parameter Dependence Of M Shellmentioning
confidence: 99%
“…This result is consistent with the result in Dwek et al (1998) of 10 −3 < M shell /M Earth < 10 2 at > 700 AU for β = 2 case. On the other hand, however, the total IPD mass is dominated by large particles (∼100 µm) from the dust size distribution around the Earth (Kral et al 2017). Although this dust size distribution is valid around the Earth, it is difficult to believe that the small IPD particles (a < 1 µm) is dominated in the outer Solar system.…”
Section: Parameter Dependence Of M Shellmentioning
confidence: 99%
“…Mukai et al 1974;. More recently similar coronae have been inferred around a large number of nearby stars (Kral et al 2017).…”
Section: Coronal Dustmentioning
confidence: 87%
“…exozodis) are the extrasolar counterpart of the zodiacal dust found in the solar system. They are both a key to understanding the evolution of planetary systems 21 and a source of noise for the direct detection of Earth-like exoplanets. [22][23][24] Exozodiacal dust emits primarily in the near-infrared to mid-infrared where it is outshone by the host star.…”
Section: Exozodiacal Dustmentioning
confidence: 99%