J
J. Damet
Researcher at University of Bern
Publications - 3
Citations - 333
J. Damet is an academic researcher from University of Bern. The author has contributed to research in topics: Microscopy & Nuclear emulsion. The author has an hindex of 3, co-authored 3 publications receiving 325 citations.
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Journal ArticleDOI
High-speed particle tracking in nuclear emulsion by last-generation automatic microscopes
N. Armenise,M. De Serio,M. Ieva,M. T. Muciaccia,Alessandra Pastore,S. Simone,J. Damet,I. Kreslo,N. Savvinov,T. Waelchli,L. Consiglio,M. Cozzi,D. Di Ferdinando,Luigi Salvatore Esposito,G. Giacomelli,M. Giorgini,G. Mandrioli,L. Patrizii,Maximiliano Sioli,G. Sirri,L. Arrabito,Imad Baptiste Laktineh,P. Royole-Degieux,S. Buontempo,Nicola D'Ambrosio,G. De Lellis,G. De Rosa,F. Di Capua,D. Coppola,F. Formisano,A. Marotta,P. Migliozzi,C. Pistillo,L. Scotto Lavina,G. Sorrentino,P. Strolin,V. Tioukov,Frédéric Juget,M. Hauger,G. Rosa,E. Barbuto,Cristiano Bozza,G. Grella,G. Romano,C. Sirignano +44 more
TL;DR: The European Scanning System (ES) as discussed by the authors is a last-generation automatic microscope working at a scanning speed of 20 cm 2 / h, designed to unambigously detect ν μ → ν τ oscillations in nuclear emulsions.
Journal ArticleDOI
Hardware performance of a scanning system for high speed analysis of nuclear emulsions
L. Arrabito,E. Barbuto,Cristiano Bozza,Salvatore Buontempo,L. Consiglio,D. Coppola,M. Cozzi,J. Damet,Nicola D'Ambrosio,G. De Lellis,M. De Serio,F. Di Capua,D. Di Ferdinando,D. Di Marco,Luigi Salvatore Esposito,G. Giacomelli,G. Grella,M. Hauger,F. Juget,I. Kreslo,M. Giorgini,M. Ieva,Imad Baptiste Laktineh,K. Manai,G. Mandrioli,A. Marotta,Shahid Manzoor,P. Migliozzi,P. Monacelli,M. T. Muciaccia,Alessandra Pastore,L. Patrizii,C. Pistillo,M. Pozzato,P. Royole-Degieux,G. Romano,G. Rosa,N. Savvinov,A. Schembri,L. Scotto Lavina,S. Simone,Maximiliano Sioli,C. Sirignano,G. Sirri,G. Sorrentino,P. Strolin,V. Tioukov,T. Waelchli +47 more
TL;DR: The European Scanning System (ESS) as discussed by the authors is a very fast automatic system developed for the mass scanning of the emulsions of the OPERA experiment, which requires microscopes with scanning speeds of 20 cm 2 =h in an emulsion volume of 44mm thickness.
Posted Content
First events from the CNGS neutrino beam detected in the OPERA experiment
J.E. Campagne,B. Carlus,E. Carrara,A. Cazes,L. Chaussard,M. M. Chernyavsky,V. Chiarella,N. Chon-Sen,Artem Chukanov,Robert Ciesielski,L. Consiglio,M. Cozzi,F. Dal Corso,J. Damet,G. De Lellis,T. Descombes,M. De Serio,F. Di Capua,D. Di Ferdinando,A. Di Giovanni,N. Di Marco,C. Di Troia,S. Dmitrievski,Marcos Dracos,D. Duchesneau,B. Dulach,S. Dusini,J. Ebert,R. I. Enikeev,Antonio Ereditato,Luigi Salvatore Esposito,C. Fanin,J. Favier,G. Felici,Torben Ferber,L. Fournier,A. Franceschi,D. Frekers,T. Fukuda,C. Fukushima,V. I. Galkin,V. A. Galkin,R. Gallet,A. Garfagnini,G. Gaudiot,G. Giacomelli,O. Giarmana,M. Giorgini +47 more
TL;DR: The OPERA neutrino detector at the underground Gran Sasso Laboratory (LNGS) was designed to perform the first detection of neutrinos oscillations in appearance mode, through the study of nu_mu to nu_tau oscillations as discussed by the authors.