WHERE ARE THE MINI KREUTZ-FAMILY COMETS?

The Kreutz family of sungrazing comets contains over 2000 known members, many of which are believed to be under ~100 m sizes (mini comets) and have only been studied at small heliocentric distances (r sub(H)) with space-based SOHO/STEREO spacecraft. To understand the brightening process of mini Kreu...

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Veröffentlicht in:	The Astrophysical journal 2014-12, Vol.796 (2), p.1-8
Hauptverfasser:	Ye, Quan-Zhi, Hui, Man-To, Kracht, Rainer, Wiegert, Paul A
Format:	Artikel
Sprache:	eng
Schlagworte:	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Brightening Bursting Classification COMETS COMPARATIVE EVALUATIONS CYANIDES DISTANCE MASS Mini Searching Sodium SPACE Spacecraft VISIBLE RADIATION WAVELENGTHS
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creator	Ye, Quan-Zhi Hui, Man-To Kracht, Rainer Wiegert, Paul A
description	The Kreutz family of sungrazing comets contains over 2000 known members, many of which are believed to be under ~100 m sizes (mini comets) and have only been studied at small heliocentric distances (r sub(H)) with space-based SOHO/STEREO spacecraft. To understand the brightening process of mini Kreutz comets, we conducted a survey using CFHT/MegaCam at moderate r sub(H) guided by SOHO/STEREO observations. We identify two comets that should be in our search area but are not detected, indicating that the comets have either followed a steeper brightening rate within the previously reported rapid brightening stage (the brightening burst), or the brightening burst starts earlier than expected. We present a composite analysis of the pre-perihelion light curves of five Kreutz comets that cover to ~1 AU. We observe significant diversity in the light curves that can be used to grossly classify them into two types: C/Ikeya-Seki and C/SWAN follow the canonical r super(-4) sub(H) while the others follow r super(-7) sub(H). In particular, C/SWAN seems to have undergone an outburst ( Delta m > 5 mag) or a rapid brightening (n [gap] 11) between r sub(H) = 1.06 AU and 0.52 AU, and shows hints of structural/compositional differences compared to other bright Kreutz comets. We also find evidence that the Kreutz comets as a population lose their mass less efficiently than the dynamically new comet, C/ISON, and are relatively devoid of species that drive C/ISON's activity at large r sub(H). Concurrent observations of C/STEREO in different wavelengths also suggest that a blueward species such as CN may be the main driver for brightening bursts, instead of sodium as previously thought.
doi_str_mv	10.1088/0004-637X/796/2/83
format	Article
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To understand the brightening process of mini Kreutz comets, we conducted a survey using CFHT/MegaCam at moderate r sub(H) guided by SOHO/STEREO observations. We identify two comets that should be in our search area but are not detected, indicating that the comets have either followed a steeper brightening rate within the previously reported rapid brightening stage (the brightening burst), or the brightening burst starts earlier than expected. We present a composite analysis of the pre-perihelion light curves of five Kreutz comets that cover to ~1 AU. We observe significant diversity in the light curves that can be used to grossly classify them into two types: C/Ikeya-Seki and C/SWAN follow the canonical r super(-4) sub(H) while the others follow r super(-7) sub(H). 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To understand the brightening process of mini Kreutz comets, we conducted a survey using CFHT/MegaCam at moderate r sub(H) guided by SOHO/STEREO observations. We identify two comets that should be in our search area but are not detected, indicating that the comets have either followed a steeper brightening rate within the previously reported rapid brightening stage (the brightening burst), or the brightening burst starts earlier than expected. We present a composite analysis of the pre-perihelion light curves of five Kreutz comets that cover to ~1 AU. We observe significant diversity in the light curves that can be used to grossly classify them into two types: C/Ikeya-Seki and C/SWAN follow the canonical r super(-4) sub(H) while the others follow r super(-7) sub(H). In particular, C/SWAN seems to have undergone an outburst ( Delta m > 5 mag) or a rapid brightening (n [gap] 11) between r sub(H) = 1.06 AU and 0.52 AU, and shows hints of structural/compositional differences compared to other bright Kreutz comets. We also find evidence that the Kreutz comets as a population lose their mass less efficiently than the dynamically new comet, C/ISON, and are relatively devoid of species that drive C/ISON's activity at large r sub(H). 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To understand the brightening process of mini Kreutz comets, we conducted a survey using CFHT/MegaCam at moderate r sub(H) guided by SOHO/STEREO observations. We identify two comets that should be in our search area but are not detected, indicating that the comets have either followed a steeper brightening rate within the previously reported rapid brightening stage (the brightening burst), or the brightening burst starts earlier than expected. We present a composite analysis of the pre-perihelion light curves of five Kreutz comets that cover to ~1 AU. We observe significant diversity in the light curves that can be used to grossly classify them into two types: C/Ikeya-Seki and C/SWAN follow the canonical r super(-4) sub(H) while the others follow r super(-7) sub(H). 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subjects	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Brightening Bursting Classification COMETS COMPARATIVE EVALUATIONS CYANIDES DISTANCE MASS Mini Searching Sodium SPACE Spacecraft VISIBLE RADIATION WAVELENGTHS
title	WHERE ARE THE MINI KREUTZ-FAMILY COMETS?
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