Zobrazeno 1 - 10
of 904
pro vyhledávání: '"Kugathasan,T."'
Autor:
Moretti, T., Milanesio, M., Cardella, R., Kugathasan, T., Picardi, A., Semendyaev, I., Elviretti, M., Rücker, H., Nakamura, K., Takubo, Y., Togawa, M., Cadoux, F., Cardarelli, R., Cecconi, L., Débieux, S., Favre, Y., Fenoglio, C. A., Ferrere, D., Gonzalez-Sevilla, S., Iodice, L., Kotitsa, R., Magliocca, C., Nessi, M., Pizarro-Medina, A., Iglesias, J. Sabater, Saidi, J., Pinto, M. Vicente Barreto, Zambito, S., Paolozzi, L., Iacobucci, G.
Samples of the monolithic silicon pixel ASIC prototype produced in 2022 within the framework of the Horizon 2020 MONOLITH ERC Advanced project were irradiated with 70 MeV protons up to a fluence of 1 x 1016 neq/cm2, and then tested using a beam of 12
Externí odkaz:
http://arxiv.org/abs/2404.12885
Autor:
Milanesio, M., Paolozzi, L., Moretti, T., Latshaw, A., Bonacina, L., Cardella, R., Kugathasan, T., Picardi, A., Elviretti, M., Rücker, H., Cardarelli, R., Cecconi, L., Fenoglio, C. A., Ferrere, D., Gonzalez-Sevilla, S., Iodice, L., Kotitsa, R., Magliocca, C., Nessi, M., Pizarro-Medina, A., Iglesias, J. Sabater, Semendyaev, I., Saidi, J., Pinto, M. Vicente Barreto, Zambito, S., Iacobucci, G.
The time resolution of the second monolithic silicon pixel prototype produced for the MONOLITH H2020 ERC Advanced project was studied using a femtosecond laser. The ASIC contains a matrix of hexagonal pixels with 100 {\mu}m pitch, readout by low-nois
Externí odkaz:
http://arxiv.org/abs/2401.01229
Autor:
Milanesio, M., Paolozzi, L., Moretti, T., Cardella, R., Kugathasan, T., Martinelli, F., Picardi, A., Semendyaev, I., Zambito, S., Nakamura, K., Tabuko, Y., Togawa, M., Elviretti, M., Rücker, H., Cadoux, F., Cardarelli, R., Débieux, S., Favre, Y., Fenoglio, C. A., Ferrere, D., Gonzalez-Sevilla, S., Iodice, L., Kotitsa, R., Magliocca, C., Nessi, M., Pizarro-Medina, A., Iglesias, J. Sabater, Saidi, J., Pinto, M. Vicente Barreto, Iacobucci, G.
A monolithic silicon pixel prototype produced for the MONOLITH ERC Advanced project was irradiated with 70 MeV protons up to a fluence of 1 x 10^16 1 MeV n_eq/cm^2. The ASIC contains a matrix of hexagonal pixels with 100 {\mu}m pitch, readout by low-
Externí odkaz:
http://arxiv.org/abs/2310.19398
Autor:
Zambito, S., Milanesio, M., Moretti, T., Paolozzi, L., Munker, M., Cardella, R., Kugathasan, T., Martinelli, F., Picardi, A., Elviretti, M., Rücker, H., Trusch, A., Cadoux, F., Cardarelli, R., Débieux, S., Favre, Y., Fenoglio, C. A., Ferrere, D., Gonzalez-Sevilla, S., Iodice, L., Kotitsa, R., Magliocca, C., Nessi, M., Pizarro-Medina, A., Iglesias, J. Sabater, Saidi, J., Pinto, M. Vicente Barreto, Iacobucci, G.
A second monolithic silicon pixel prototype was produced for the MONOLITH project. The ASIC contains a matrix of hexagonal pixels with 100 {\mu}m pitch, readout by a low-noise and very fast SiGe HBT frontend electronics. Wafers with 50 {\mu}m thick e
Externí odkaz:
http://arxiv.org/abs/2301.12244
Autor:
Pernegger, H., Allport, P., Berlea, D. V., Birman, A., Bortoletto, D., Buttar, C., Charbon, E., Dachs, F., Dao, V., Denizli, H., Dobrijevic, D., Dyndal, M., Fenigstein, A., de Acedo, L. Flores Sanz, Freeman, P., Gabrielli, A., Gazi, M., Gonella, L., Gonzalez, V., Gustavino, G., Haim, A., Kugathasan, T., LeBlanc, M., Munker, M., Oyulmaz, K. Y., Piro, F., Riedler, P., Sandaker, H., Schioppa, E. J., Sharma, A., Snoeys, W., Sanchez, C. Solans, Suligoj, T., Toledano, E., van Rijnbach, M., Nunez, M. Vazquez, Weick, J., Worm, S., Zoubir, A. M.
Publikováno v:
JINST 18 P09018 (2023)
Depleted Monolithic Active Pixel Sensor (DMAPS) sensors developed in the Tower Semiconductor 180 nm CMOS imaging process have been designed in the context of the ATLAS ITk upgrade Phase-II at the HL-LHC and for future collider experiments. The "MALTA
Externí odkaz:
http://arxiv.org/abs/2301.03912
Autor:
project, ALICE ITS, Rinella, G. Aglieri, Agnello, M., Alessandro, B., Agnese, F., Akram, R. S., Alme, J., Anderssen, E., Andreou, D., Antinori, F., Apadula, N., Atkinson, P., Baccomi, R., Badalà, A., Balbino, A., Bartels, C., Barthel, R., Baruffaldi, F., Belikov, I., Beole, S., Becht, P., Bhatti, A., Bhopal, M., Bianchi, N., Blidaru, M. B., Boca, G., Bok, J., Bonomi, G., Bonora, M., Borri, M., Borshchov, V., Botta, E., Bruno, G. E., Buckland, M., Bufalino, S., Cai, M., Camerini, P., Cariola, P., Catalano, F., Sanchez, C. Ceballos, Chakaberia, I., Chartier, M., Colamaria, F., Colella, D., Collu, A., Concas, M., Contin, G., Costanza, S., Cui, P., Dainese, A., Dainton, J. B., De Cilladi, L., De Martin, C., De Robertis, G., Deng, W., Di Mauro, A., Ding, Y., Durkac, M., Elia, D., Ersdal, M. R., Faggin, M., Fan, F., Fantoni, A., Fecchio, P., Feliciello, A., Feofilov, G., Ferk, A., Ferencei, J., Fiorenza, G., Flores, A. N., Fragiacomo, E., Gajanana, D., Gal, A., Gao, C., Gargiulo, C., Gianotti, P., Giubilato, P., Grant, A., Greiner, L., Grelli, A., Groettvik, O. S., Grosa, F., Hu, C. Guo, Hannigan, R., Hasenbichler, J. A., Helstrup, H., Hillemanns, H., Hills, C., Hindley, P., Hippolyte, B., Hofman, B., Hong, G. H., Huang, G., Iddon, J. P., Ilyas, H., Imhoff, M. A., Isakov, A., Jadlovska, A., Jadlovska, S., Jadlovsky, J., Jaelani, S., Johnson, T., Junique, A., Kalinak, P., Kalweit, A., Keil, M., Khabanova, Z., Khan, H., Kim, B., Kim, C., Kim, J., Kim, T., Klein, J., Kluge, A., Kobdaj, C., Kotliarov, A., Králik, I., Krizek, F., Kugathasan, T., Kuhn, C., Kuijer, P. G., Kushpil, S., Kweon, M. J., Kwon, J. Y., Kwon, Y., La Rocca, P., Lakrathok, A., Langoy, R., Larionov, P., Laudi, E., Lazareva, T., Lea, R., Lemmon, R. C., Li, X. L., Lien, J., Lim, B., Lim, S. H., Lindsay, S., Liu, A., Liu, J., Lunardon, M., Luparello, G., Lupi, M., Mager, M., Maire, A., Malik, Q. W., Mandaglio, G., Manzari, V., Mao, Y., Margagliotti, G. V., Markert, C., Marras, D., Martinengo, P., Masciocchi, S., Masera, M., Masoni, A., Mastroserio, A., Matuoka, P. F. T., Mazza, G., Mazzaschi, F., Mazzoni, M. A., Morel, F, Muccifora, V., Mulliri, A., Musa, L., Nesbo, S. V., Nesterov, D., Norman, J., Park, J., Patra, R. N, Pastore, C., Pei, H., Peng, X., Piano, S., Pinto, C., Pisano, S., Politano, S., Prakasa, E., Prino, F., Protsenko, M., Puccio, M., Rachevski, A., Ramello, L., Rami, F., Ravasenga, I., Rehman, A., Reidt, F., Riggi, F., Røed, K., Röhrich, D., Ronchetti, F., Rosano, A., Rossewij, M. J., Rossi, A., Rui, R., Russo, R., Sadikin, R., Sarritzu, V., Schambach, J., Senyukov, S., Seo, J. J., Shahoyan, R., Shaukat, S., Siddhanta, S., Sitta, M., Snellings, R. J. M., Snoeys, W., Songmoolnak, A., Sonneveld, J., Soramel, F., Suljic, M., Sumowidagdo, S., Sun, D., Sun, X., Tambave, G. J., Tersimonov, G., Tkacik, M., Toppi, M., Trifiró, A., Trogolo, S., Trubnikov, V., Turrisi, R., Tveter, T. S., Tymchuck, I., Ullaland, K., Urioni, M., Usai, G. L., Valle, N., van Doremalen, L. V. R., Vanat, T., Van Hoorne, J. W., Varga-Kofarago, M., Velure, A., Wang, D., Wang, Y., Wikne, J., Wright, J. R., Xu, R., Yang, P., Yin, Z., Yoo, I. -K., Yoon, J. H., Yuan, S., Zaccolo, V., Zhang, E., Zhang, X., Zherebchevskii, V., Zhou, D., Zhu, J., Zhu, Y., Zinovjev, G., Zurlo, N.
A novel approach for designing the next generation of vertex detectors foresees to employ wafer-scale sensors that can be bent to truly cylindrical geometries after thinning them to thicknesses of 20-40$\mu$m. To solidify this concept, the feasibilit
Externí odkaz:
http://arxiv.org/abs/2105.13000
Autor:
Rinella, G. Aglieri, Chaosong, G., di Mauro, A., Eum, J., Hillemanns, H., Junique, A., Keil, M., Kim, D., Kim, H., Kugathasan, T., Lee, S., Mager, M., Manzari, V., Tobon, C. A. Marin, Martinengo, P., Mugnier, H., Musa, L., Reidt, F., Rousset, J., Sielewicz, K., Snoeys, W., Šuljić, M., van Hoorne, J. W., Waheed, Q. M., Yang, P., Yoo, I. -K.
This paper contains a compilation of parameters influencing the charge collection process extracted from a comprehensive study of partially depleted Monolithic Active Pixel Sensors with small (<25 um$^2$) collection electrodes fabricated in the Tower
Externí odkaz:
http://arxiv.org/abs/2009.10517
Autor:
Dyndal, M., Dao, V., Allport, P., Tortajada, I. Asensi, Barbero, M., Bhat, S., Bortoletto, D., Berdalovic, I., Bespin, C., Buttar, C., Caicedo, I., Cardella, R., Dachs, F., Degerli, Y., Denizli, H., de Acedo, L. Flores Sanz, Freeman, P., Gonella, L., Habib, A., Hemperek, T., Hirono, T., Hiti, B., Kugathasan, T., Mandić, I., Maneuski, D., Mikuž, M., Moustakas, K., Munker, M., Oyulmaz, K. Y., Pangaud, P., Pernegger, H., Piro, F., Riedler, P., Sandaker, H., Schioppa, E. J., Schwemling, P., Sharma, A., Argemi, L. Simon, Sanchez, C. Solans, Snoeys, W., Suligoj, T., Wang, T., Wermes, N., Worm, S.
Depleted Monolithic Active Pixel Sensor (DMAPS) prototypes developed in the TowerJazz 180 nm CMOS imaging process have been designed in the context of the ATLAS upgrade Phase-II at the HL-LHC. The pixel sensors are characterized by a small collection
Externí odkaz:
http://arxiv.org/abs/1909.11987
Autor:
Moustakas, K., Barbero, M., Berdalovic, I., Bespin, C., Breugnon, P., Caicedo, I., Cardella, R., Degerli, Y., Plaja, N. Egidos, Godiot, S., Guilloux, F., Hemperek, T., Hirono, T., Krueger, H., Kugathasan, T., Tobon, C. A. Marin, Pangaud, P., Pernegger, H., Schioppa, E. J., Snoeys, W., Vandenbroucke, M., Wang, T., Wermes, N.
Depleted Monolithic Active Pixel Sensors (DMAPS) constitute a promising low cost alternative for the outer layers of the ATLAS experiment Inner Tracker (ITk). Realizations in modern, high resistivity CMOS technologies enhance their radiation toleranc
Externí odkaz:
http://arxiv.org/abs/1809.03434
Autor:
Dingfelder, J., Barbero, M., Barrillon, P., Berdalovic, I., Bespin, C., Breugnon, P., Caicedo, I., Cardella, R., Degerli, Y., Flores Sanz de Acedo, L., Guilloux, F., Habib, A., Hirono, T., Hemperek, T., Hügging, F., Krüger, H., Kugathasan, T., Moustakas, K., Pangaud, P., Pernegger, H., Piro, F., Pohl, D.-L., Riedler, P., Rozanov, A., Rymaszewski, P., Schwemling, P., Snoeys, W., Wang, T., Wermes, N., Zhang, S.
Publikováno v:
In Nuclear Inst. and Methods in Physics Research, A 1 July 2022 1034
