U
Uwe Pietrzyk
Researcher at University of Wuppertal
Publications - 204
Citations - 14484
Uwe Pietrzyk is an academic researcher from University of Wuppertal. The author has contributed to research in topics: Muon & Scattering. The author has an hindex of 54, co-authored 204 publications receiving 13520 citations. Previous affiliations of Uwe Pietrzyk include Max Planck Society & University of Cologne.
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Journal ArticleDOI
GATE : a simulation toolkit for PET and SPECT
Sébastien Jan,Giovanni Santin,D. Strul,D. Strul,Steven Staelens,Karine Assié,D. Autret,Stéphane Avner,Remi Barbier,Manuel Bardiès,Peter M. Bloomfield,David Brasse,Vincent Breton,P. Bruyndonckx,Irène Buvat,Arion F. Chatziioannou,Yong Choi,Y. H. Chung,Claude Comtat,D. Donnarieix,Ludovic Ferrer,Stephen J. Glick,C. J. Groiselle,David Guez,P. F. Honore,S. Kerhoas-Cavata,Assen S. Kirov,V. Kohli,Michel Koole,M. Krieguer,D.J. van der Laan,F. Lamare,G. Largeron,Carole Lartizien,D. Lazaro,Marnix C. Maas,Lydia Maigne,F. Mayet,F. Melot,C. Merheb,E. Pennacchio,J. Perez,Uwe Pietrzyk,F. R. Rannou,F. R. Rannou,M. Rey,Dennis R. Schaart,Charles Schmidtlein,Luc Simon,Luc Simon,Tae Yong Song,J. M. Vieira,Dimitris Visvikis,R. T. Van de Walle,E. Wieers,Christian Morel +55 more
TL;DR: A detailed description of the design and development of GATE is given by the OpenGATE collaboration, whose continuing objective is to improve, document and validate GATE by simulating commercially available imaging systems for PET and SPECT.
Journal ArticleDOI
A measurement of the spin asymmetry and determination of the structure function g1 in deep inelastic muon-proton scattering
J. G. Ashman,B. Badelek,Günter Baum,J. Beaufays,Christopher Bee,C. Benchouk,I. G. Bird,S. C. Brown,M. C. Caputo,Harry Cheung,J. S. Chima,Jacek Ciborowski,R. W. Clifft,G. Coignet,F. Combley,G. Court,G. D'Agostini,J. Drees,Michael Düren,N. Dyce,A. W. Edwards,M. Edwards,T. Ernst,M. I. Ferrero,David Francis,E. Gabathuler,J. Gajewski,R. Gamet,V. Gibson,J. Gillies,P. Graftström,Klaus Hamacher,D. von Harrach,P. Hayman,J. R. Holt,V. W. Hughes,A. Jacholkowska,Tim Jones,E. M. Kabuss,B. Korzen,U. Krüner,S. Kullander,Ulrich Landgraf,D. Lanske,F. Lettenström,T. Lindqvist,J. Loken,M. Matthews,Y. Mizuno,Klaus Mönig,F. Montanet,J. Nassalski,T. Niinikoski,P. R. Norton,G. Oakham,R. F. Oppenheim,A. M. Osborne,V. Papavassiliou,N. Pavel,C. Peroni,H. Peschel,Ricardo Piegaia,B. Pietrzyk,Uwe Pietrzyk,Bogdan Povh,P. Renton,J. M. Rieubland,A. Rijllart,Klaus Rith,E. Rondio,L. Ropelewski,D. Salmon,A. Sandacz,T. Schröder,K. P. Schüler,K. Schultze,T. A. Shibata,T. J. Sloan,Amedeo Staiano,H. E. Stier,J. Stock,Geoffrey Taylor,J. C. Thompson,T. Walcher,S. Wheeler,W. S. C. Williams,Stephen Wimpenny,Roland Windmolders,W. J. Womersley,Karl Ziemons +89 more
TL;DR: In this article, a measurement of the spin asymmetry and determination of the structure function g1 in deep inelastic muon-proton scattering was carried out for the first time.
Journal ArticleDOI
The ratio of the nucleon structure functions $F^N_2$ for iron and deuterium
J. J. Aubert,G. Bassompierre,K.H. Becks,C. Best,E. Böhm,X. De Bouard,F.W. Brasse,C. Broll,S.C. Brown,J. Carr,R. W. Clifft,J.H. Cobb,G. Coignet,F. Combley,G.R. Court,G. D'Agostini,W.D. Dau,J.K. Davies,Y. Declais,R.W. Dobinson,U. Dosselli,J. Drees,A. W. Edwards,M. C. Edwards,J. Favier,M.I. Ferrero,W. Flauger,E. Gabathuler,R. Gamet,J. Gayler,V. Gerhardt,Claus Gössling,Jennifer S. Haas,Klaus Hamacher,P.J. Hayman,M. Henckes,V. Korbel,Ulrich Landgraf,M. Leenen,M. Maire,H. Minssieux,W. Mohr,H.E. Montgomery,K. Moser,Richard Mount,P. R. Norton,J. McNicholas,A.M. Osborne,P. Payre,Cristiana Peroni,H. Pessard,Uwe Pietrzyk,K. Rith,M. Schneegans,T. J. Sloan,H. E. Stier,W. Stockhausen,J.M. Thenard,Joshua Thompson,L. Urban,M. Villers,H. Wahlen,M. Whalley,D. Williams,W.S.C. Williams,J.G. Williamson,Stephen Wimpenny +66 more
TL;DR: Using the data on deep inelastic muon scattering on iron and deuterium, the ratio of the nucleon structure functions F 2 N ( Fe )/F 2 N( D ) is presented in this paper.
Journal ArticleDOI
An investigation of the spin structure of the proton in deep inelastic scattering of polarised muons on polarised protons
J. G. Ashman,B. Badelek,Günter Baum,J. Beaufays,Christopher Bee,C. Benchouk,I. G. Bird,S.C. Brown,M. C. Caputo,Harry Cheung,J. S. Chima,Jacek Ciborowski,R. W. Clifft,G. Coignet,F. Combley,G.R. Court,G. D'Agostini,J. Drees,Michael Düren,N. Dyce,A. W. Edwards,M. Edwards,T. Ernst,M. I. Ferrero,David Francis,E. Gabathuler,R. Gamet,V. Gibson,J. Gillies,P. Grafström,Klaus Hamacher,D. V. Harrach,P.J. Hayman,J.R. Holt,V. W. Hughes,A. Jacholkowska,Tim Jones,E. M. Kabuss,B. Korzen,U. Krüner,S. Kullander,Ulrich Landgraf,D. Lanske,F. Lettenström,T. Lindqvist,J. G. Loken,M. Matthews,Y. Mizuno,Klaus Mönig,F. Montanet,E. Nagy,J. Nassalski,T.O. Niinikoski,P. R. Norton,F. G. Oakham,R. F. Oppenheim,A.M. Osborne,V. Papavassiliou,N. Pavel,C. Peroni,H. Peschel,Ricardo Piegaia,B. Pietrzyk,Uwe Pietrzyk,Bogdan Povh,P. B. Renton,J. M. Rieubland,A. Rijllart,K. Rith,E. Rondio,L. Ropelewski,D. Salmon,A. Sandacz,T. Schröder,K. P. Schüler,K. Schultze,T. A. Shibata,T. J. Sloan,Amedeo Staiano,H. E. Stier,J. Stock,Geoffrey Taylor,Joshua Thompson,T. Walcher,Jozsef Toth,L. Urban,W. Wallucks,S. Wheeler,D. A. Williams,W.S.C. Williams,Stephen Wimpenny,Roland Windmolders,W. J. Womersley,Karl Ziemons +93 more
TL;DR: An investigation of the spin structure of the proton in deep inelastic scattering of polarised muons on polarised protons was performed in this article, where the spin was investigated in the context of the deep scattering process of polarized muons.
Journal ArticleDOI
GATE V6: a major enhancement of the GATE simulation platform enabling modelling of CT and radiotherapy
Sébastien Jan,D. Benoit,E. Becheva,Thomas Carlier,F. Cassol,Patrice Descourt,Thibault Frisson,L. Grevillot,Laurent Guigues,Lydia Maigne,C. Morel,Yann Perrot,Niklas S. Rehfeld,David Sarrut,Dennis R. Schaart,Simon Stute,Uwe Pietrzyk,Dimitris Visvikis,N. Zahra,Irène Buvat +19 more
TL;DR: An overview of the main additions and improvements implemented in GATE since the publication of the initial GATE paper is presented, which includes new models available to simulate optical and hadronic processes, novelties in modelling tracer, organ or detector motion, new options for speeding up GATE simulations, and preliminary results regarding the validation of GATE V6 for radiation therapy applications.