E
E. M. Friedlander
Researcher at Lawrence Berkeley National Laboratory
Publications - 4
Citations - 37
E. M. Friedlander is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Nuclear emulsion & Proton. The author has an hindex of 3, co-authored 4 publications receiving 37 citations.
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Journal ArticleDOI
Nuclear interactions of 200 GeV protons in emulsion
J. Hebert,O. Adamovic,H. Areti,G. Baroni,G. Baroni,G. Baumann,J. M. Bolta,J. Cohen,P Cuefr,R. Devienne,S. Di Liberto,S. Di Liberto,J Dura,F. Fernandez,E. M. Friedlander,Gandia,G. Hartner,C. J. D. Hébert,M. Juric,R. Kaiser,J. Lory,M. Marcu,A. Marin,J. P. Massue,J. Medina,C. Meton,M Morand,R. Nitu,I. Otterlund,O M Patel,J Pellicer,S. Petrera,S. Petrera,R. Pfohl,G. Rey,G. Romano,G. Romano,R. Schmitt,D. Schune,F Tejerina,Tsai Chu,A. van Ginneken,M. A. Vincent,B. Willot +43 more
TL;DR: In this article, the inelastic mean free path was found to be 35.5 ± 0.8 cm and the average shower particle multiplicity was 12.9 − 0.2.
Journal ArticleDOI
Proton-tungsten reactions at 400 GeV
J. Cincheza,J. Cohen,A. Marin,T. Visky,E. M. Friedlander,A.J. Herz,Bo Jakobsson,B. Lindkvist,I. Otterlund,E. Stenlund,B.-E. Andersson +10 more
TL;DR: In this paper, the mean multiplicities of black, grey and shower track producing particles are found to be 11.5±0.4, 5.2± 0.2 and 20.0±0.6, respectively.
Proceedings ArticleDOI
200 GeV Proton Interactions in Nuclear Emulsion
J. Hébert,C. J. D. Hébert,H. Areti,P.M. Patel,G. Hartner,M. A. Vincent,G. Baumann,R. Devienne,J. Lory,C. Meton,D. Schune,B. Willot,B. Charquet,Tsai-Chü,P. Cüer,B. Kaiser,J. P. Massue,G. Baroni,S. Di Liberto,S. Petrera,G. Romano,J. Cohen,E. M. Friedlander,A. Marin,M. Marcu,R. Nitu,J. Otterlund,A. van Ginneken,O. Adamovic +28 more
TL;DR: The mean free path for inelastic interactions of 200 GeV protons in nuclear emulsion has been measured using the techniques of along-the-track scanning and area scanning.
Journal ArticleDOI
Wide-angle production of slow antiprotons at the CERN intersecting storage rings
B. Bogdan,I. Cincheza,J. Cohen,E. M. Friedlander,M. Haiduc,M. Marcu,A. Marin,S. Neagu,R. Niţu,T. Visky,H. Annoni,C. Busi,A. Cordaillat,Atul Gurtu,A.J. Herz +14 more
TL;DR: The ratio of very slow antiprotons to that of pions in the same momentum interval was measured at the ISR by means of nuclear emulsions as discussed by the authors, and the ratio was 0.063 ± 0.012.