F
Fan Lei
Researcher at Qinetiq
Publications - 42
Citations - 7023
Fan Lei is an academic researcher from Qinetiq. The author has contributed to research in topics: Cosmic ray & Monte Carlo method. The author has an hindex of 17, co-authored 37 publications receiving 6217 citations. Previous affiliations of Fan Lei include Defence Evaluation and Research Agency.
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Journal ArticleDOI
Geant4 developments and applications
John Allison,K. Amako,John Apostolakis,Henrique Araujo,P.A. Dubois,Makoto Asai,G. Barrand,R. Capra,Stephane Chauvie,R Chytracek,G.A.P. Cirrone,Gene Cooperman,G. Cosmo,Giacomo Cuttone,G.G. Daquino,M. Donszelmann,M. Dressel,Gunter Folger,Franca Foppiano,J. Generowicz,Vladimir Grichine,Susanna Guatelli,P. Gumplinger,A. Heikkinen,Ivana Hrivnacova,A. S. Howard,Sebastien Incerti,Vladimir Ivanchenko,T. Johnson,F.W. Jones,Tatsumi Koi,R. P. Kokoulin,M. Kossov,Hisaya Kurashige,V. Lara,S.A. Larsson,Fan Lei,O. Link,Francesco Longo,M. Maire,A. Mantero,B. Mascialino,I. McLaren,Patricia Mendez Lorenzo,K. Minamimoto,K. Murakami,Petteri Nieminen,Luciano Pandola,S. Parlati,Luis Peralta,J Perl,Andreas Pfeiffer,Maria Grazia Pia,Alberto Ribon,Pedro Rodrigues,Giorgio Ivan Russo,S.S Sadilov,Giovanni Santin,Takashi Sasaki,David J. Smith,N. Starkov,Satoshi Tanaka,E. Tcherniaev,B. Tome,A. Trindade,Pete Truscott,L. Urbán,M. Verderi,A. Walkden,J.P. Wellisch,D.C. Williams,Douglas Wright,H. Yoshida +72 more
TL;DR: GeGeant4 as mentioned in this paper is a software toolkit for the simulation of the passage of particles through matter, it is used by a large number of experiments and projects in a variety of application domains, including high energy physics, astrophysics and space science, medical physics and radiation protection.
Journal ArticleDOI
MULASSIS: a Geant4-based multilayered shielding simulation tool
Fan Lei,R.R. Truscott,Clive Dyer,B. Quaghebeur,D. Heynderickx,R. Nieminen,Hugh Evans,E. Daly +7 more
TL;DR: The software will be used as a general tool within ESA for radiation fluence, dose, and effects analysis and has been integrated into the ESA SPENVIS system, thus, making it accessible to the wider space community over the World Wide Web.
Journal ArticleDOI
An atmospheric radiation model based on response matrices generated by detailed Monte Carlo Simulations of cosmic ray interactions
TL;DR: In this article, a comprehensive model of the energetic radiation in the atmosphere has been developed based on the use of a dynamic cosmic ray radiation model, an efficient rigidity cutoff calculation tool, and detailed atmospheric response matrices to monochromatic cosmic ray particle incidences.
Journal ArticleDOI
Improvements to and Validations of the QinetiQ Atmospheric Radiation Model (QARM)
TL;DR: The QinetiQ atmospheric radiation model (QARM) as discussed by the authors is a comprehensive model of the energetic radiation in the atmosphere, which includes two additional cosmic ray models, new response matrix, dose rate and flight dose calculation facilities.
Journal ArticleDOI
Anthology of the Development of Radiation Transport Tools as Applied to Single Event Effects
Robert A. Reed,Robert A. Weller,A. Akkerman,J. Barak,W. Culpepper,Sophie Duzellier,C.C. Foster,Marc Gaillardin,Guillaume Hubert,T.M. Jordan,Insoo Jun,Steven L. Koontz,Fan Lei,P.J. McNulty,Marcus H. Mendenhall,M. Murat,Pentti Nieminen,P. M. O’Neill,Melanie Raine,Brandon Reddell,Frédéric Saigné,Giovanni Santin,Lembit Sihver,H.H.K. Tang,Pete Truscott,Frédéric Wrobel +25 more
TL;DR: In this paper, the authors present contributions from eleven different groups, each developing and/or applying Monte Carlo-based radiation transport tools to simulate a variety of effects that result from energy transferred to a semiconductor material by a single particle event.