Zobrazeno 1 - 10
of 1 689
pro vyhledávání: '"Gée, C."'
Autor:
Mazza, S. M., Gee, C., Zhao, Y., Padilla, R., Ryan, E., Tournebise, N., Darby, B., McKinney-Martinez, F., Sadrozinski, H. F. -W., Seiden, A., Schumm, B., Cindro, V., Kramberger, G., Mandić, I., Mikuž, M., Zavrtanik, M., Arcidiacono, R., Cartiglia, N., Ferrero, M., Mandurrino, M., Sola, V., Staiano, A., Boscardin, M., Della Betta, G. F., Ficorella, F., Pancheri, L., Paternoster, G.
Next generation Low Gain Avalanche Diodes (LGAD) produced by Hamamatsu photonics (HPK) and Fondazione Bruno Kessler (FBK) were tested before and after irradiation with ~1MeV neutrons at the JSI facility in Ljubljana. Sensors were irradiated to a maxi
Externí odkaz:
http://arxiv.org/abs/2201.08933
A new approach to achieving high granularity for silicon diode detectors with impact ionization gain
Low Gain Avalanche Diodes (LGADs) are thin (20-50 $\mu m$)silicon di ode sensors with modest internal gain (typically 5 to 50) and exceptional time resolution (17 $ps$ to 50 $ps$). However, the granularity of such devices is limited to the millimeter
Externí odkaz:
http://arxiv.org/abs/2101.00511
Autor:
Seiden, A., Ren, H., Jin, Y., Christie, S., Galloway, Z., Gee, C., Labitan, C., Lockerby, M., Martinez-McKinney, F., Mazza, S. M., Padilla, R., Sadrozinski, H. F. -W., Schumm, B., Wilder, M., Wyatt, W., Zhao, Y., Cartiglia, N.
Ultra-Fast Silicon Detectors (UFSDs) are n-in-p silicon detectors that implement moderate gain (typically 5 to 25) using a thin highly doped p++ layer between the high resistivity p-bulk and the junction of the sensor. The presence of gain allows exc
Externí odkaz:
http://arxiv.org/abs/2006.04241
Autor:
Shi, X., Ayoub, M. K., da Costa, J. Barreiro Guimarães, Cui, H., Kiuchi, R., Fan, Y., Han, S., Huang, Y., Jing, M., Liang, Z., Liu, B., Liu, J., Lyu, F., Qi, B., Ran, K., Shan, L., Shi, L., Tan, Y., Wu, K., Xiao, S., Yang, T., Yang, Y., Yu, C., Zhao, M., Zhuang, X., García, L. Castillo, Gkougkousis, E. L., Grieco, C., Grinstein, S., Leite, M., Saito, G. T., Howard, A., Cindro, V., Kramberger, G., Mandić, I., Mikuž, M., d'Amen, G., Giacomini, G., Rossi, E., Tricoli, A., Chen, H., Ge, J., Li, C., Liang, H., Yang, X., Zhao, L., Zhao, Z., Zheng, X., Atanov, N., Davydov, Y., Grosse-Knetter, J., Lange, J., Quadt, A., Schwickardi, M., Alderweireldt, S., Ferreira, A. S. C., Guindon, S., Kuwertz, E., Rizzi, C., Christie, S., Galloway, Z., Gee, C., Jin, Y., Labitan, C., Lockerby, M., Mazza, S. M., Martinez-Mckinney, F., Padilla, R., Ren, H., Sadrozinski, H. F. -W., Schumm, B., Seiden, A., Wilder, M., Wyatt, W., Zhao, Y., Han, D., Zhang, X.
We report on the results of a radiation campaign with neutrons and protons of Low Gain Avalanche Detectors (LGAD) produced by Hamamatsu (HPK) as prototypes for the High-Granularity Timing Detector (HGTD) in ATLAS. Sensors with an active thickness of
Externí odkaz:
http://arxiv.org/abs/2004.13895
Autor:
Padilla, R, Labitan, C., Galloway, Z., Gee, C., Mazza, S. M., McKinney-Martinez, F., Sadrozinski, H. F. -W., Seiden, A., Schumm, B., Wilder, M., Zhao, Y., Ren, H., Jin, Y., Lockerby, M., Cindro, V., Kramberger, G., Mandiz, I., Mikuz, M., Zavrtanik, M., Arcidiacono, R., Cartiglia, N., Ferrero, M., Mandurrino, M., Sola, V., Staiano, A.
The properties of 50 um thick Low Gain Avalanche Diode (LGAD) detectors manufactured by Hamamatsu photonics (HPK) and Fondazione Bruno Kessler (FBK) were tested before and after irradiation with 1 MeV neutrons. Their performance were measured in char
Externí odkaz:
http://arxiv.org/abs/2004.05260
Autor:
Yang, X., Alderweireldt, S., Atanov, N., Ayoub, M. K., da Costa, J. Barreiro Guimaraes, Garcia, L. Castillo, Chen, H., Christie, S., Cindro, V., Cui, H., D'Amen, G., Davydov, Y., Fan, Y. Y., Galloway, Z., Ge, J. J., Gee, C., Giacomini, G., Gkougkousis, E. L., Grieco, C., Grinstein, S., Grosse-Knetter, J., Guindon, S., Han, S., Howard, A., Huang, Y. P., Jin, Y., Jing, M. Q., Kiuchi, R., Kramberger, G., Kuwertz, E., Labitan, C., Lange, J., Leite, M., Li, C. H., Li, Q. Y., Liu, B., Liu, J. Y., Liu, Y. W., Liang, H., Liang, Z. J., Lockerby, M., Lyu, F., Mandić, I., Martinez-Mckinney, F., Mazza, S. M., Mikuž, M., Padilla, R., Qi, B. H., Quadt, A., Ran, K. L., Ren, H., Rizzi, C., Rossi, E., Sadrozinski, H. F. -W., Saito, G. T., Schumm, B., Schwickardi, M., Seiden, A., Shan, L. Y., Shi, L. S., Shi, X., Ferreira, A. Soares Canas, Sun, Y. J., Tan, Y. H., Tricoli, A., Wan, G. Y., Wilder, M., Wu, K. W., Wyatt, W., Xiao, S. Y., Yang, T., Yang, Y. Z., Yu, C. J., Zhao, L., Zhao, M., Zhao, Y., Zhao, Z. G., Zheng, X. X., Zhuang, X. A.
The High-Granularity Timing Detector is a detector proposed for the ATLAS Phase II upgrade. The detector, based on the Low-Gain Avalanche Detector (LGAD) technology will cover the pseudo-rapidity region of $2.4<|\eta|<4.0$ with two end caps on each s
Externí odkaz:
http://arxiv.org/abs/2003.14071
Autor:
Jin, Y., Ren, H., Christie, S., Galloway, Z., Gee, C., Labitan, C., Lockerby, M., Martinez-McKinney, F., Mazza, S. M., Padilla, R., Sadrozinski, H. F. -W., Schumm, B., Seiden, A., Wilder, M., Wyatt, W., Zhao, Y., Arcidiacono, R., Cartiglia, N., Ferrero, M., Mandurrino, M., Siviero, F., Sola, V., Tornago, M., Cindro, V., Howard, A., Kramberger, G., Mandić, I., Mikuž, M.
The performance of the Ultra-Fast Silicon Detectors (UFSD) after irradiation with neutrons and protons is compromised by the removal of acceptors in the thin layer below the junction responsible for the gain. This effect is tested both with C-V measu
Externí odkaz:
http://arxiv.org/abs/2003.07076
Akademický článek
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Autor:
Ahmed, Z., Apresyan, A., Artuso, M., Barry, P., Bielejec, E., Blaszczyk, F., Bose, T., Braga, D., Charlebois, S. A., Chatterjee, A., Chavarria, A., Cho, H. -M., Torre, S. Dalla, Demarteau, M., Denisov, D., Diefenthaler, M., Dragone, A., Fahim, F., Gee, C., Habib, S., Haller, G., Hogan, J., Jones, B. J. P., Garcia-Sciveres, M., Giacomini, G., Gilmore, K., Giovanetti, G. K., Glenzinski, D., Gleyzer, S., Goldan, A. H., Gollapinni, S., Grace, C., Guenette, R., Gutsche, O., Heintz, U., Hertel, S. A., Hutzler, N. R., Kolkowitz, S., Kovachy, T., Leonard, F., Lipton, R., Liu, M., Low, J. F., Madigan, P., Malik, S., Mates, J., Mei, Y., Merkel, P., Mohayai, T., Nomerotski, A., Oliveri, E., Palladino, K., Pantic, E., Para, A., Perez, K., Pyle, M., Riedler, P., Ropelewski, L., Rusack, R., Schleier-Smith, M., Shipsey, I, Scholberg, K., Schumm, B. A., Slosar, A., Smith, W., Surrow, B., Sushkov, A. O., Suzuki, A., Szydagis, M., Temples, D., Thom, J., Titov, M., Tvrznikova, L., Usai, E., Van Berg, R., Velan, V., Winslow, L., Wongjirad, T., Xie, Q. Xia J., You, Z. F., Zani, A., Zhang, J., Zhu, R. Y.
For the field of high energy physics to continue to have a bright future, priority within the field must be given to investments in the development of both evolutionary and transformational detector development that is coordinated across the national
Externí odkaz:
http://arxiv.org/abs/1908.00194
Akademický článek
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