L
Luis Fonseca
Researcher at Spanish National Research Council
Publications - 151
Citations - 2712
Luis Fonseca is an academic researcher from Spanish National Research Council. The author has contributed to research in topics: Silicon & Thermopile. The author has an hindex of 24, co-authored 148 publications receiving 2485 citations. Previous affiliations of Luis Fonseca include Autonomous University of Barcelona.
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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
Multi-range silicon micromachined flow sensor
TL;DR: In this paper, a new approach of enlarging the measurement range of a thermal calorimetric flow sensor is presented, based on the fact that the response of these kind of sensors tends to saturate at a certain flow ratio, so the widening of the flow range can be achieved by increasing the number of sensing elements of the sensor.
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
Soft breakdown conduction in ultrathin (3-5 nm) gate dielectrics
Enrique Miranda,Jordi Suñé,Rosana Rodriguez,Montserrat Nafria,Xavier Aymerich,Luis Fonseca,Francesca Campabadal +6 more
TL;DR: In this article, the soft breakdown failure mode of ultrathin (3-5 nm) SiO/sub 2/ layers in polysilicon-oxide-semiconductor structures is investigated.
Journal ArticleDOI
Monolithically integrated thermoelectric energy harvester based on silicon nanowire arrays for powering micro/nanodevices
D. Dávila,D. Dávila,Albert Tarancón,Carlos Calaza,Marc Salleras,Marta Fernández-Regúlez,Álvaro San Paulo,Luis Fonseca +7 more
TL;DR: In this article, the authors describe the implementation of multiple electrically connected dense arrays of well-oriented and size-controlled silicon nanowires (Si NWs) grown by the CVD-VLS mechanism into microfabricated structures to develop thermoelectric microgenerators (μTEGs).