E
E. Borchi
Researcher at University of Florence
Publications - 194
Citations - 2565
E. Borchi is an academic researcher from University of Florence. The author has contributed to research in topics: Diamond & Silicon. The author has an hindex of 25, co-authored 194 publications receiving 2509 citations. Previous affiliations of E. Borchi include Istituto Nazionale di Fisica Nucleare.
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Journal ArticleDOI
Radiation hard silicon detectors—developments by the RD48 (ROSE) collaboration
G. Lindström,M. Ahmed,Sebastiano Albergo,Phillip Allport,D.F. Anderson,Ladislav Andricek,M. Angarano,Vincenzo Augelli,N. Bacchetta,P. Bartalini,Richard Bates,U. Biggeri,G. M. Bilei,Dario Bisello,D. Boemi,E. Borchi,T. Botila,T. J. Brodbeck,Mara Bruzzi,T. Budzyński,P. Burger,Francesca Campabadal,Gianluigi Casse,E. Catacchini,A. Chilingarov,Paolo Ciampolini,Vladimir Cindro,M. J. Costa,Donato Creanza,Paul Clauws,C. Da Via,Gavin Davies,W. De Boer,Roberto Dell'Orso,M. De Palma,B. Dezillie,V. K. Eremin,O. Evrard,Giorgio Fallica,Georgios Fanourakis,H. Feick,Ettore Focardi,Luis Fonseca,E. Fretwurst,J. Fuster,K. Gabathuler,Maurice Glaser,Piotr Grabiec,E. Grigoriev,Geoffrey Hall,M. Hanlon,F. Hauler,S. Heising,A. Holmes-Siedle,Roland Horisberger,G. Hughes,Mika Huhtinen,I. Ilyashenko,Andrew Ivanov,B.K. Jones,L. Jungermann,A. Kaminsky,Z. Kohout,Gregor Kramberger,M Kuhnke,Simon Kwan,F. Lemeilleur,Claude Leroy,M. Letheren,Z. Li,Teresa Ligonzo,Vladimír Linhart,P.G. Litovchenko,Demetrios Loukas,Manuel Lozano,Z. Luczynski,Gerhard Lutz,B. C. MacEvoy,S. Manolopoulos,A. Markou,C Martinez,Alberto Messineo,M. Mikuž,Michael Moll,E. Nossarzewska,G. Ottaviani,Val O'Shea,G. Parrini,Daniele Passeri,D. Petre,A. Pickford,Ioana Pintilie,Lucian Pintilie,Stanislav Pospisil,Renato Potenza,C. Raine,Joan Marc Rafi,P. N. Ratoff,Robert Richter,Petra Riedler,Shaun Roe,P. Roy,Arie Ruzin,A.I. Ryazanov,A. Santocchia,Luigi Schiavulli,P. Sicho,I. Siotis,T. J. Sloan,W. Slysz,Kristine M. Smith,M. Solanky,B. Sopko,K. Stolze,B. Sundby Avset,B. G. Svensson,C. Tivarus,Guido Tonelli,Alessia Tricomi,Spyros Tzamarias,Giusy Valvo,A. Vasilescu,A. Vayaki,E. M. Verbitskaya,Piero Giorgio Verdini,Vaclav Vrba,Stephen Watts,Eicke R. Weber,M. Wegrzecki,I. Węgrzecka,P. Weilhammer,R. Wheadon,C.D. Wilburn,I. Wilhelm,R. Wunstorf,J. Wüstenfeld,J. Wyss,K. Zankel,P. Zabierowski,D. Žontar +139 more
TL;DR: In this paper, a defect engineering technique was employed resulting in the development of Oxygen enriched FZ silicon (DOFZ), ensuring the necessary O-enrichment of about 2×1017 O/cm3 in the normal detector processing.
Journal ArticleDOI
Developments for radiation hard silicon detectors by defect engineering—results by the CERN RD48 (ROSE) Collaboration
G. Lindström,M. Ahmed,Sebastiano Albergo,Phillip Allport,D.F. Anderson,Ladislav Andricek,M. Angarano,Vincenzo Augelli,N. Bacchetta,P. Bartalini,Richard Bates,U. Biggeri,G. M. Bilei,Dario Bisello,D. Boemi,E. Borchi,T. Botila,T. J. Brodbeck,Mara Bruzzi,T. Budzyński,P. Burger,Francesca Campabadal,Gianluigi Casse,E. Catacchini,A. Chilingarov,Paolo Ciampolini,Vladimir Cindro,M. J. Costa,Donato Creanza,Paul Clauws,C. Da Via,Gavin Davies,W. De Boer,Roberto Dell'Orso,M. De Palma,B. Dezillie,V. K. Eremin,O. Evrard,Giorgio Fallica,Georgios Fanourakis,H. Feick,Ettore Focardi,Luis Fonseca,Eckhart Fretwurst,J. Fuster,K. Gabathuler,Maurice Glaser,Piotr Grabiec,E. Grigoriev,Geoffrey Hall,M. Hanlon,F. Hauler,S. Heising,A. Holmes-Siedle,Roland Horisberger,G. Hughes,Mika Huhtinen,I. Ilyashenko,Andrew Ivanov,B.K. Jones,L. Jungermann,A. Kaminsky,Z. Kohout,Gregor Kramberger,M Kuhnke,Simon Kwan,F. Lemeilleur,C. Leroy,M. Letheren,Z. Li,Teresa Ligonzo,Vladimír Linhart,P.G. Litovchenko,Demetrios Loukas,Manuel Lozano,Z. Luczynski,G. Lutz,B. C. MacEvoy,S. Manolopoulos,A. Markou,C Martinez,Alberto Messineo,M. Miku,Michael Moll,E. Nossarzewska,G. Ottaviani,Val O'Shea,G. Parrini,Daniele Passeri,D. Petre,A. Pickford,Ioana Pintilie,Lucian Pintilie,Stanislav Pospisil,Renato Potenza,V. Radicci,C. Raine,Joan Marc Rafi,P. N. Ratoff,Robert Richter,Petra Riedler,Shaun Roe,P. Roy,Arie Ruzin,A.I. Ryazanov,A. Santocchia,Luigi Schiavulli,P. Sicho,I. Siotis,T. J. Sloan,W. Slysz,Kevin M. Smith,M. Solanky,B. Sopko,K. Stolze,B. Sundby Avset,B. G. Svensson,C. Tivarus,Guido Tonelli,Alessia Tricomi,S. Tzamarias,Giusy Valvo,A. Vasilescu,A. Vayaki,E. M. Verbitskaya,Piero Giorgio Verdini,Vaclav Vrba,Stephen Watts,Eicke R. Weber,M. Wegrzecki,I. Węgrzecka,P. Weilhammer,R. Wheadon,C.D. Wilburn,I. Wilhelm,R. Wunstorf,J. Wüstenfeld,J. Wyss,K. Zankel,P. Zabierowski,D. Zontar +140 more
TL;DR: In this paper, the authors summarized the final results obtained by the RD48 collaboration, focusing on the more practical aspects directly relevant for LHC applications, including the changes of the effective doping concentration (depletion voltage) and the dependence of radiation effects on fluence, temperature and operational time.
Journal ArticleDOI
Radiation hard diamond sensors for future tracking applications
Wolfgang Adam,W. De Boer,E. Borchi,Mara Bruzzi,C. Colledani,P. D'Angelo,V. Dabrowski,W. Dulinski,B. Van Eijk,V. K. Eremin,F. Fizzotti,H. Frais-Kölbl,C. Furetta,K. K. Gan,Andrej Gorišek,E. Griesmayer,E. Grigoriev,Fred Hartjes,Josef Hrubec,Fabian Huegging,Harris Kagan,J. Kaplon,R. D. Kass,K. T. Knöpfle,Manfred Krammer,Wolfgang Lange,A. Logiudice,C. Manfredotti,M. Mathes,David Menichelli,M. Mishina,Luigi Moroni,J. Noomen,Alexander Oh,Heinz Pernegger,M. Pernicka,Renato Potenza,J.L. Riester,A. Rudge,S. Sala,Steve Schnetzer,Silvio Sciortino,Robert Stone,C. M. Sutera,William Trischuk,Jaap Velthuis,B. Vincenzo,P. Weilhammer,Jens Weingarten,Norbert Wermes,Wolfram Dietrich Zeuner +50 more
TL;DR: In this article, the use of diamond detectors in future tracking applications and their survivability in the highest radiation environments is discussed, and results of devices constructed with the newest polycrystalline and single crystal Chemical Vapor Deposition diamond and their tolerance to radiation are presented.
Journal ArticleDOI
Proton irradiation of CVD diamond detectors for high-luminosity experiments at the LHC
Dirk Meier,Wolfgang Adam,Christian Bauer,E. Berdermann,Philippe Bergonzo,Franco Bogani,E. Borchi,Mara Bruzzi,C. Colledani,J. Conway,Wladyslaw Dabrowski,P A. Delpierre,Alain Deneuville,W. Dulinski,B. Van Eijk,A. Fallou,F. Foulon,Markus Friedl,C. Jany,K. K. Gan,Etienne Gheeraert,E. Grigoriev,Gregory David Hallewell,Richard Hall-Wilton,S. Han,Fred Hartjes,Josef Hrubec,D. Husson,Harris Kagan,D. R. Kania,J. Kaplon,R. D. Kass,K. T. Knöpfle,Manfred Krammer,P.F. Manfredi,R. Marshall,M. Mishina,F. Le Normand,L. S. Pan,V.G. Palmieri,Heinz Pernegger,M. Pernicka,A. Peitz,S. Pirollo,K. Pretzl,Valerio Re,J.L. Riester,Shaun Roe,DG Roff,A. Rudge,Steve Schnetzer,Silvio Sciortino,V. Speziali,Harald Joerg Stelzer,Robert Stone,R. J. Tapper,R. Tesarek,Gordon Thomson,M. Trawick,William Trischuk,Renato Turchetta,A. M. Walsh,R. Wedenig,P. Weilhammer,Hans-Joachim Ziock,M. M. Zoeller +65 more
TL;DR: In this paper, the authors showed that CVD diamond detectors are radiation hard to 24~GeV/$c$ and 500~MeV protons up to a fluence of $5\times 10^{15}~p/{\rm cm^2}.
Journal ArticleDOI
Review of the development of diamond radiation sensors
Wolfgang Adam,Christian Bauer,E. Berdermann,Philippe Bergonzo,Franco Bogani,E. Borchi,A. Brambilla,Mara Bruzzi,C. Colledani,J. Conway,Wladyslaw Dabrowski,P A. Delpierre,Alain Deneuville,W. Dulinski,B. Van Eijk,A. Fallou,F. Fizzotti,F. Foulon,Markus Friedl,K. K. Gan,Etienne Gheeraert,E. Grigoriev,Gregory David Hallewell,Richard Hall-Wilton,S. Han,Fred Hartjes,Josef Hrubec,D. Husson,Harris Kagan,D. Kania,J. Kaplon,C. Karl,R. D. Kass,K. T. Knöpfle,Manfred Krammer,A. Logiudice,R. Lu,P.F. Manfredi,C. Manfredotti,R. Marshall,Dirk Meier,M. Mishina,A. Oh,L. S. Pan,V.G. Palmieri,M. Pernicka,A. Peitz,S. Pirollo,P. Polesello,K. Pretzl,Valerio Re,J.L. Riester,Shaun Roe,DG Roff,A. Rudge,Steve Schnetzer,Silvio Sciortino,V. Speziali,Harald Joerg Stelzer,Robert Stone,R. J. Tapper,R. Tesarek,Gordon Thomson,M. Trawick,W. Trischuk,Ettore Vittone,A. M. Walsh,R. Wedenig,P. Weilhammer,Hans Ziock,M. M. Zoeller +70 more
TL;DR: In this article, a diamond micro-strip detector with 50 μm pitch has been exposed in a high-energy test beam in order to investigate their charge collection properties, and the measured spatial resolution using a centre-of-gravity position finding algorithm corresponds to the digital resolution for this strip pitch.