A. Sulaiman
13 Papers
1 Citations
A. Sulaiman is an academic researcher. The author has contributed to research in topics: Geology & Tectonics. The author has an hindex of 2, co-authored 5 publications.
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Papers
Magnetospheric‐Ionospheric‐Atmospheric Implications From the Juno Flyby of Ganymede
J. H. Waite,Thomas K. Greathouse,S. C. Carberry Mogan,A. Sulaiman,Philip W Valek,Frederic Allegrini,Robert Ebert,G. R. Gladstone,William S. Kurth,J. E. P. Connerney,G. Clark,Fran Bagenal,S. Duling,Norberto Romanelli,S. Bolton,Audrey Vorburger,Chris Paranicas,P. Kollmann,Barry Mauk,C. Hansen,Dustin Buccino,R. E. Johnson,R. J. Wilson,B. D. Teolis +23 more
- 01 Apr 2024
TL;DR: The Juno flyby of Ganymede provided unique opportunities to sample the local environment of Ganymede and its magnetosphere. The measured electron energy flux and composition of the polar ionospheric outflow provide new constraints on atmospheric models.
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Driver of Energetic Electron Precipitation in the Vicinity of Ganymede
W. Li,Qianli Ma,X. Shen,X.‐J. Zhang,Barry Mauk,J. B. Clark,Frederic Allegrini,William S. Kurth,George Hospodarsky,A. Sulaiman,T. Nordheim,Scott Bolton +11 more
TL;DR: In this paper , the authors used a quasi-linear model to quantify energetic electron precipitation driven by quasi-parallel and very oblique whistler-mode waves, respectively, in the vicinity of Ganymede.
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Electron Densities in Jupiter's Upper Ionosphere Inferred From Juno Plasma Wave Observations
W. S. Kurth,Jeremy Faden,J. H. Waite,A. Sulaiman,S. S. Elliott,George Hospodarsky,J. E. P. Connerney,Joshua A. Kammer,T. Greathouse,Philip W Valek,Frederic Allegrini,Fran Bagenal,T. Stallard,L. Moore,D. Coffin,Omakshi Agiwal,P. Withers,S. Bolton +17 more
- 01 Mar 2025
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Shear wave splitting analysis on Nias Island: Preliminary results for crustal anisotropy in the Sumatran-Forearc
Syuhada Syuhada,Titi Anggono,Febty Febriani,Cinantya Nirmala Dewi,A. D. Prasetio,Mohammad Hasib,A. Sulaiman +6 more
TL;DR: In this paper , the authors performed an investigation of crustal anisotropy in the Sumatran forearc through shear wave splitting analysis and employed high quality splitting measurements from around 59 local events with depth less than 25 km recorded at a seismic station in Nias Island.
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