Search Results - "MacEvoy, B."

Comprehensive device Simulation modeling of heavily irradiated silicon detectors at cryogenic temperatures by Moscatelli, F., Santocchia, A., MacEvoy, B., Hall, G., Passeri, D., Petasecca, M., Pignatel, G.U.

“…Radiation hardness is a critical design concern for present and future silicon detectors in high energy physics. Tracking systems at the CERN Large Hadron…”
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Device simulation of irradiated silicon detectors at cryogenic temperatures by Santocchia, A., MacEvoy, B., Hall, G., Moscatelli, F., Passeri, D., Pignatel, G.U.

“…Radiation hardness is a critical design constraint for current and future generation silicon detectors, which are foreseen to undergo radiation fluences higher…”
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Defect kinetics in novel detector materials by MacEvoy, B.C, Hall, G

“…Silicon particle detectors will be used extensively in experiments at the CERN Large Hadron Collider, where unprecedented particle fluences will cause…”
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Scalability tests of R-GMA-based grid job monitoring system for CMS Monte Carlo data production by Bonacorsi, D., Colling, D., Field, L., Fisher, S.M., Grandi, C., Hobson, P.R., Kyberd, P., MacEvoy, B., Nebrensky, J.J., Tallini, H., Traylen, S.

“…High-energy physics experiments, such as the compact muon solenoid (CMS) at the large hadron collider (LHC), have large-scale data processing computing…”
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A comprehensive analysis of irradiated silicon detectors at cryogenic temperatures by Santocchia, A., MacEvoy, B., Hall, G., Bilei, G.M., Moscatelli, F., Passeri, D., Pignatel, G.U.

“…The effect of particle irradiation on high-resistivity silicon detectors has been extensively studied with the goal of engineering devices able to survive the…”
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Interdefect charge exchange in silicon particle detectors at cryogenic temperatures by MacEvoy, B., Santocchia, A., Hall, G., Moscatelli, F., Passeri, D., Bilei, G.M.

“…Silicon particle detectors in the next generation of experiments at the CERN Large Hadron Collider will be exposed to a very challenging radiation environment…”
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Defect evolution in irradiated silicon detector material by MacEvoy, B.C, Hall, G, Gill, K

“…A numerical model based on experimental data has been used to investigate the evolution of atomic defects in high resistivity detector material during neutron…”
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Defect-engineering rad-hard particle detectors: the role of impurities and inter-defect charge exchange by MacEvoy, B.C, Santocchia, A, Hall, G

“…Silicon detectors in particle physics experiments at the CERN Large Hadron Collider will be exposed to unprecedented levels of radiation. The principal…”
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An enhanced approach to numerical modeling of heavily irradiated silicon devices by Moscatelli, F., Santocchia, A., Passeri, D., Bilei, G.M., MacEvoy, B.C., Hall, G., Placidi, P.

“…In this paper we discuss an enhanced approach to the analysis of radiation-damaged silicon devices, with reference to numerical modelling implemented in a…”
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A microscopic explanation for type inversion and the annealing behaviour of radiation damaged silicon detectors by Matheson, J., Robbins, M., Watts, S., Hall, G., MacEvoy, B.

“…A semiconductor device model, DLTS measurements and defect kinetics considerations lead us to propose an explanation for the major changes in the macroscopic…”
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Radiation damage studies of field plate and p-stop n-side silicon microstrip detectors by Matheson, J, Moser, H.-G, Roe, S, Weilhammer, P, Moszczynski, S, Dabrowski, W, Grybos, P, Idzik, M, Skoczen, A, Gill, K, Hall, G, MacEvoy, B, Vitè, D, Wheadon, R, Allport, P, Green, C, Richardson, J, Apsimon, R, Evensen, L, Avset, B, Giubellino, P, Ramello, L

“…We present results from studies of the properties of dedicated n-side microstrip structures before and after irradiation, with photons to 7 Mrad and fast…”
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Defect evolution in silicon detector material by MacEvoy, B.C

“…A numerical kinetics model has been used to investigate the evolution of complex defects in high resistivity silicon detector material during fast neutron…”
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Cryogenic investigations and modelling of inter-defect charge exchange in silicon particle detectors by MacEvoy, B.C, Hall, G, Santocchia, A

“…Silicon detectors in particle physics experiments at the CERN Large Hadron Collider (LHC) will be exposed to high levels of damaging radiation. The resulting…”
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Performance of R-GMA based grid job monitoring system for CMS data production by Byrom, R., Colling, D., Fisher, S.M., Grandi, C., Hobson, P.R., Kyberd, P., MacEvoy, B., Nebrensky, J.J., Tallini, H., Traylen, S.

“…High Energy Physics experiments, such as the Compact Muon Solenoid (CMS) at the CERN laboratory in Geneva, have large-scale data processing requirements, with…”
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Beam test performance of the APV5 chip by de Fez-Laso, M.D.M, Bonaccorso, C, French, M, Gill, K, Hall, G, Iles, G, Jones, L, MacEvoy, B, Matheson, J, Millmore, M, Murray, P, Potts, A, Raymond, M

“…The performance of the latest prototype of the radiation hard front end chip to be used by the CMS collaboration for analogue readout of the microstrip tracker…”
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Radiation hard silicon detectors—developments by the RD48 (ROSE) collaboration by Lindström, G, Ahmed, M, Albergo, S, Anderson, D, Augelli, V, Bacchetta, N, Bartalini, P, Bates, R, Biggeri, U, Bisello, D, Boemi, D, Borchi, E, Burger, P, Campabadal, F, Chilingarov, A, Ciampolini, P, Cindro, V, Creanza, D, Da Via, C, Davies, G, De Boer, W, Dell’Orso, R, Dezillie, B, Eremin, V, Evrard, O, Fanourakis, G, Feick, H, Focardi, E, Fonseca, L, Fretwurst, E, Fuster, J, Gabathuler, K, Glaser, M, Hall, G, Heising, S, Holmes-Siedle, A, Hughes, G, Jones, B.K, Jungermann, L, Kohout, Z, Kramberger, G, Kuhnke, M, Kwan, S, Lemeilleur, F, Leroy, C, Li, Z, Ligonzo, T, Linhart, V, Litovchenko, P, Loukas, D, Lozano, M, Luczynski, Z, Lutz, G, MacEvoy, B, Manolopoulos, S, Markou, A, Martinez, C, Messineo, A, Moll, M, Oshea, V, Parrini, G, Passeri, D, Petre, D, Pickford, A, Pintilie, I, Pospisil, S, Raine, C, Ratoff, P.N, Richter, R.H, Roy, P, Ruzin, A, Ryazanov, A.I, Santocchia, A, Schiavulli, L, Sicho, P, Slysz, W, Smith, K, Stolze, K, Sundby Avset, B, Svensson, B, Tivarus, C, Tricomi, A, Tzamarias, S, Valvo, G, Vasilescu, A, Vayaki, A, Verbitskaya, E, Verdini, P, Vrba, V, Watts, S, Weber, E.R, Wegrzecki, M, Wegrzecka, I, Wheadon, R, Wilhelm, I, Wunstorf, R, Wüstenfeld, J, Wyss, J, Zankel, K, Žontar, D

“…The RD48 (ROSE) collaboration has succeeded to develop radiation hard silicon detectors, capable to withstand the harsh hadron fluences in the tracking areas…”
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Anesthesia ventilators should have adjustable high-pressure alarms by Bashein, G, MacEvoy, B

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Defect kinetics in silicon detector material by MacEvoy, B. C.

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Study of the bunch crossing identification at LHC using microstrip gas chambers by Angelini, F., Bacchetta, N., Bellazzini, R., Bon, D., Bondar, A., Bozzo, M., Brez, A., Brom, J.-M., Caldero, J.-C., Clergeau, J.-F., Contardo, D., French, M., Giraldo, A., Guillot, G., Hall, G., Hammarström, R., Haroutunian, R., Jones, L., Kachelhoffer, T., Kryn, D., Loreti, M., k´Ladziński, T., Mabo, J.-C., MacEvoy, B., Massai, M., Miguet, M., Millmore, M., Morelli, A., Nagaslaev, V., Pallares, A., Parodi, F., Peisert, A., Quian, S., Raffo, F., Raymond, M., Rebouillat, M., Riester, J.L., Runolfsson, O., Sachdeva, R., Shekhtman, L., Smadja, G., Spandre, G., Spezziga, M., Toropin, A., Vander Velde, C., Vanlaer, P., Vitè, D.

“…During the beam test of a tracker prototype for the Compact Muon Solenoid detector proposed for the LHC, the time response of the Microstrip Gas Chambers was…”
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Developments for radiation hard silicon detectors by defect engineering—results by the CERN RD48 (ROSE) Collaboration by Lindström, G., Ahmed, M., Albergo, S., Allport, P., Anderson, D., Andricek, L., Angarano, M.M., Bacchetta, N., Bartalini, P., Biggeri, U., Bilei, G.M., Bisello, D., Boemi, D., Brodbeck, T.J., Bruzzi, M., Budzynski, T., Burger, P., Campabadal, F., Casse, G., Catacchini, E., Chilingarov, A., Ciampolini, P., Cindro, V., Costa, M.J., Creanza, D., Davies, G., De Boer, W., Dell’Orso, R., De Palma, M., Dezillie, B., Fallica, G., Fanourakis, G., Focardi, E., Fonseca, L., Fretwurst, E., Fuster, J., Gabathuler, K., Glaser, M., Grabiec, P., Huhtinen, M., Ivanov, A., Jones, B.K., Kaminsky, A., Kohout, Z., Kramberger, G., Kuhnke, M., Lemeilleur, F., Letheren, M., Ligonzo, T., Linhart, V., Litovchenko, P., Loukas, D., MacEvoy, B., Manolopoulos, S., Martinez, C., Messineo, A., Moll, M., Nossarzewska, E., Parrini, G., Passeri, D., Pickford, A., Pintilie, L., Pospisil, S., Potenza, R., Rafi, J.M., Ratoff, P.N., Richter, R.H., Riedler, P., Roy, P., Ruzin, A., Ryazanov, A.I., Santocchia, A., Schiavulli, L., Sicho, P., Sloan, T., Slysz, W., Solanky, M., Stolze, K., Sundby Avset, B., Tonelli, G., Tricomi, A., Tzamarias, S., Valvo, G., Vasilescu, A., Verbitskaya, E., Verdini, P., Vrba, V., Watts, S., Weber, E.R., Wegrzecki, M., Wegrzecka, I., Weilhammer, P., Wheadon, R., Wilburn, C., Wilhelm, I., Wunstorf, R., Wüstenfeld, J., Wyss, J., Zabierowski, P., Zontar, D.

“…This report summarises the final results obtained by the RD48 collaboration. The emphasis is on the more practical aspects directly relevant for LHC…”
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