D
David H. Brooks
Researcher at George Mason University
Publications - 139
Citations - 4831
David H. Brooks is an academic researcher from George Mason University. The author has contributed to research in topics: Solar wind & Coronal loop. The author has an hindex of 36, co-authored 127 publications receiving 4276 citations. Previous affiliations of David H. Brooks include Kyoto University & University of Strathclyde.
Papers
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A systematic survey of high-temperature emission in solar active regions
TL;DR: In this article, the authors present a systematic study of the differential emission measure distribution in 15 active region cores, focusing on measurements in the "inter-moss" region, that is, the region between the loop footpoints, where the observations are easier to interpret.
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Ionization state, excited populations and emission of impurities in dynamic finite density plasmas: I. The generalized collisional-radiative model for light elements
Hugh Summers,W. J. Dickson,M. G. O'Mullane,N. R. Badnell,A. D. Whiteford,David H. Brooks,J. Lang,Stuart Loch,D. C. Griffin +8 more
TL;DR: In this article, an integrated view of the population structure and its role in establishing the ionization state of light elements in dynamic, finite density, laboratory and astrophysical plasmas is presented.
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Ionisation state, excited populations and emission of impurities in dynamic finite density plasmas. I: The generalised collisional-radiative model for light elements
H. P. Summers,W. J. Dickson,M. G. O'Mullane,N. R. Badnell,A. D. Whiteford,David H. Brooks,J. Lang,Stuart Loch,D. C. Griffin +8 more
TL;DR: In this article, an integrated view of the population structure and its role in establishing the ionisation state of light elements in dynamic, finite density, laboratory and astrophysical plasmas is presented.
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Constraints on the heating of high-temperature active region loops: observations from hinode and the solar dynamics observatory
TL;DR: In this article, high-temperature emission in the core of a solar active region using instruments on Hinode and the Solar Dynamics Observatory (SDO) was studied. But the authors focused on the high-frequency heating scenario where heating events occurred on timescales much less than a characteristic cooling time.
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Spectroscopic Observations of Current Sheet Formation and Evolution
Harry P. Warren,David H. Brooks,Ignacio Ugarte-Urra,Jeffrey W. Reep,Nicholas A. Crump,George A. Doschek +5 more
TL;DR: In this article, the structure and evolution of a current sheet that formed in the wake of an eruptive X8.3 flare observed at the west limb of the Sun on September 10, 2017 is reported.