A
Ahmed Ali
Researcher at Taif University
Publications - 930
Citations - 19157
Ahmed Ali is an academic researcher from Taif University. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 61, co-authored 728 publications receiving 15197 citations. Previous affiliations of Ahmed Ali include Université de Sherbrooke & University of Baghdad.
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Journal ArticleDOI
Phytochemical investigation of Hippeastrum vittatum growing in Egypt.
Journal ArticleDOI
Simultaneous measurement of the muon neutrino charged-current cross section on oxygen and carbon without pions in the final state at T2K
K. Abe,N. Akhlaq,R. Akutsu,Ahmed Ali,C. Alt,C. Andreopoulos,C. Andreopoulos,Laura Gutermuth Anthony,M. Antonova,Shigeki Aoki,Akitaka Ariga,T. Arihara,Y. Asada,Y. Ashida,E. T. Atkin,Y. Awataguchi,S. Ban,M. Barbi,Gareth J. Barker,G.D. Barr,D. Barrow,M. Batkiewicz-Kwasniak,A. Beloshapkin,F. Bench,Vincenzo Berardi,L. Berns,S. Bhadra,S. Bienstock,S. Bolognesi,T. Bonus,B. Bourguille,S. B. Boyd,A. Bravar,D. Bravo Berguño,C. Bronner,Stephanie Bron,A. Bubak,M. Buizza Avanzini,Thomas B. Campbell,S. V. Cao,S. L. Cartwright,M. G. Catanesi,A. Cervera,D. Cherdack,N. Chikuma,G. Christodoulou,M. Cicerchia,J. P. Coleman,G. Collazuol,L. Cook,D. Coplowe,A. Cudd,A. Dabrowska,G. De Rosa,T. Dealtry,S. R. Dennis,C. Densham,F. Di Lodovico,N. Dokania,S. Dolan,Tony Doyle,O. Drapier,J. Dumarchez,Patrick Dunne,A. Eguchi,Lars Eklund,S. Emery-Schrenk,Antonio Ereditato,Alexander Finch,G. Fiorillo,C. Francois,M. Friend,Y. Fujii,R. Fujita,D. Fukuda,R. Fukuda,Y. Fukuda,K. Fusshoeller,C. Giganti,M. Gonin,A. Gorin,M. Guigue,D. R. Hadley,J. T. Haigh,P. Hamacher-Baumann,M. Hartz,T. Hasegawa,Samira Hassani,N. C. Hastings,Y. Hayato,A. Hiramoto,M. Hogan,J. Holeczek,N. T. Hong Van,T. Honjo,F. Iacob,A. K. Ichikawa,M. Ikeda,T. Ishida,M. Ishitsuka,K. Iwamoto,A. Izmaylov,N. Izumi,M. Jakkapu,B. Jamieson,S. J. Jenkins,C. Jesús-Valls,M. Jiang,P. Jonsson,C. K. Jung,X. Junjie,P. B. Jurj,M. Kabirnezhad,A. C. Kaboth,T. Kajita,Hidekazu Kakuno,J. Kameda,D. Karlen,S. P. Kasetti,Y. Kataoka,Y. Katayama,Teppei Katori,Y. Kato,E. Kearns,M. M. Khabibullin,A. N. Khotjantsev,T. Kikawa,H. Kikutani,Hyun-Chul Kim,S. King,J. Kisiel,A. Knight,T. Kobata,T. Kobayashi,L. Koch,T. Koga,A. Konaka,L. L. Kormos,Yusuke Koshio,A. Kostin,K. Kowalik,Hidetoshi Kubo,Yu. G. Kudenko,N. Kukita,S. Kuribayashi,R.P. Kurjata,T. Kutter,M. Kuze,L. Labarga,J. Lagoda,M. Lamoureux,M. Lawe,M. Licciardi,R. P. Litchfield,S. L. Liu,Xiao-yan Li,A. Longhin,L. Ludovici,Xianguo Lu,Thorsten Lux,L. N. Machado,L. Magaletti,Kendall Mahn,M. Malek,S. Manly,L. Maret,A. D. Marino,L. Marti-Magro,T. Maruyama,T. Matsubara,K. Matsushita,V. Matveev,C. Mauger,K. Mavrokoridis,E. Mazzucato,N. McCauley,J. McElwee,Kevin Scott McFarland,C. McGrew,A. Mefodiev,C. J. Metelko,M. Mezzetto,A. Minamino,Oleg Mineev,S. Mine,M. Miura,L. Molina Bueno,S. Moriyama,Th. A. Mueller,L. Munteanu,S. Murphy,Y. Nagai,T. Nakadaira,Masayuki Nakahata,Y. Nakajima,A. Nakamura,K. Nakamura,S. Nakayama,Tsuyoshi Nakaya,K. Nakayoshi,C. E. R. Naseby,T. V. Ngoc,K. Niewczas,K. Nishikawa,Y. Nishimura,Etam Noah,T. S. Nonnenmacher,F. Nova,P. Novella,J. A. Nowak,J. C. Nugent,H. M. O'Keeffe,L. O'Sullivan,T. Odagawa,T. Ogawa,R. Okada,Kimihiro Okumura,T. Okusawa,S. M. Oser,R. A. Owen,Y. Oyama,V. Palladino,V. Paolone,Michelangelo Pari,W. C. Parker,S. Parsa,Jaroslaw Pasternak,M. Pavin,D. G. Payne,G. C. Penn,L. Pickering,C. Pidcott,G. Pintaudi,C. Pistillo,B. A. Popov,K. Porwit,M. Posiadala-Zezula,A. Pritchard,B. Quilain,T. Radermacher,E. Radicioni,B. Radics,P. N. Ratoff,C. Riccio,E. Rondio,S. Roth,André Rubbia,Alan Cosimo Ruggeri,C. Ruggles,A. Rychter,K. Sakashita,Federico Sanchez,G. Santucci,C. M. Schloesser,Kate Scholberg,Mark Scott,Y. Seiya,T. Sekiguchi,Hiroyuki Sekiya,D. Sgalaberna,A. Shaikhiev,A. Shaykina,Masato Shiozawa,W. Shorrock,A. Shvartsman,M. B. Smy,Jan T. Sobczyk,H. Sobel,F. J. P. Soler,Y. Sonoda,S. Suvorov,A. T. Suzuki,Sy Suzuki,Yoshihiro Suzuki,A. A. Sztuc,M. Tada,M. Tajima,A. Takeda,Y. Takeuchi,H. K. Tanaka,H.A. Tanaka,Shuji Tanaka,Y. Tanihara,N. Teshima,Lester D.R. Thompson,W. Toki,C. Touramanis,T. Towstego,K. M. Tsui,T. Tsukamoto,M. Tzanov,Y. Uchida,M. Vagins,S. Valder,Z. Vallari,D. Vargas,G. Vasseur,W. G. S. Vinning,T. Vladisavljevic,Vladimir Volkov,T. Wachala,J. Walker,J. G. Walsh,Yufeng Wang,D. L. Wark,M. O. Wascko,A. C. Weber,R. Wendell,M. J. Wilking,C. Wilkinson,J. R. Wilson,K. Wood,C. Wret,K. Yamamoto,C. Yanagisawa,G. Yang,T. Yano,K. Yasutome,N. Yershov,Masashi Yokoyama,T. Yoshida,M. Yu,A. Zalewska,J. Zalipska,K. Zaremba,G. Zarnecki,M. Ziembicki,E. D. Zimmerman,M. Zito,S. Zsoldos,A. Zykova +330 more
TL;DR: In this paper, the double differential muon neutrino charged-current cross section on oxygen and carbon without pions in the final state as a function of the outgoing muon kinematics was measured at the ND280 off-axis near detector of the T2K experiment.
Journal ArticleDOI
Single-Cell Screening of Tamoxifen Abundance and Effect Using Mass Spectrometry and Raman-Spectroscopy
Ahmed Ali,Yasmine Abouleila,Yoshihiro Shimizu,Eiso Hiyama,Tomonobu M. Watanabe,Toshio Yanagida,Arno Germond +6 more
TL;DR: This study demonstrates for the first time the potential of using Raman spectroscopy and LSC-MS to investigate pharmacokinetics at the single-cell level and found some potential correlations between Raman spectral intensities and tamoxifen abundance, or its metabolism, suggesting a possible relationship between the two signals.
Journal ArticleDOI
A comparative adsorption/biosorption for the removal of phenol and lead onto granular activated carbon and dried anaerobic sludge
TL;DR: In this paper, the potential use of dried anaerobic granular sludge (DAGS) as a substitute for granular activated carbon (GAC) for removing phenol and lead from aqueous solution was examined in a batch system.
Journal ArticleDOI
Reconsideration of the Environmental Reduction Factor C E for GFRP Reinforcing Bars in Concrete Structures
TL;DR: In this article, the design guides for fiber-reinforced polymer reinforced concrete (FRP-RC) require that the design tensile strength of FRP bars be determined by multiplying the guaranteed tensile-strength by a factor of 2.