KEPLER FLARES. II. THE TEMPORAL MORPHOLOGY OF WHITE-LIGHT FLARES ON GJ 1243

We present the largest sample of flares ever compiled for a single M dwarf, the active M4 star GJ 1243. Over 6100 individual flare events, with energies ranging from 10 super(29) to 10 super(33) erg, are found in 11 months of 1 minute cadence data from Kepler. This sample is unique for its completen...

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Veröffentlicht in:	The Astrophysical journal 2014-12, Vol.797 (2), p.1-11
Hauptverfasser:	Davenport, James R A, Hawley, Suzanne L, Hebb, Leslie, Wisniewski, John P, Kowalski, Adam F, Johnson, Emily C, Malatesta, Michael, Peraza, Jesus, Keil, Marcus, Silverberg, Steven M, Jansen, Tiffany C, Scheffler, Matthew S, Berdis, Jodi R, Larsen, Daniel M, Hilton, Eric J
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Sprache:	eng
Schlagworte:	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY CLASSIFICATION Decomposition DIAGRAMS DWARF STARS Dynamic range ENERGY SPECTRA Flares LIMITING VALUES MASS MORPHOLOGY Phases Red dwarf stars STELLAR FLARES Temporal logic VALIDATION VISIBLE RADIATION White light
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creator	Davenport, James R A Hawley, Suzanne L Hebb, Leslie Wisniewski, John P Kowalski, Adam F Johnson, Emily C Malatesta, Michael Peraza, Jesus Keil, Marcus Silverberg, Steven M Jansen, Tiffany C Scheffler, Matthew S Berdis, Jodi R Larsen, Daniel M Hilton, Eric J
description	We present the largest sample of flares ever compiled for a single M dwarf, the active M4 star GJ 1243. Over 6100 individual flare events, with energies ranging from 10 super(29) to 10 super(33) erg, are found in 11 months of 1 minute cadence data from Kepler. This sample is unique for its completeness and dynamic range. We have developed automated tools for finding flares in short-cadence Kepler light curves, and performed extensive validation and classification of the sample by eye. From this pristine sample of flares we generate a median flare template. This template shows that two exponential cooling phases are present during the white-light flare decay, providing fundamental constraints for models of flare physics. The template is also used as a basis function to decompose complex multi-peaked flares, allowing us to study the energy distribution of these events. Only a small number of flare events are not well fit by our template. We find that complex, multi-peaked flares occur in over 80% of flares with a duration of 50 minutes or greater. Uie underlying distribution of flare durations for events 10 minutes and longer appears to follow a broken power law. Our results support the idea that sympathetic flaring may be responsible for some complex flare events.
doi_str_mv	10.1088/0004-637X/797/2/122
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subjects	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY CLASSIFICATION Decomposition DIAGRAMS DWARF STARS Dynamic range ENERGY SPECTRA Flares LIMITING VALUES MASS MORPHOLOGY Phases Red dwarf stars STELLAR FLARES Temporal logic VALIDATION VISIBLE RADIATION White light
title	KEPLER FLARES. II. THE TEMPORAL MORPHOLOGY OF WHITE-LIGHT FLARES ON GJ 1243
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