Gianluca Aglieri Rinella, Giacomo Alocco, Matias Antonelli, Roberto Baccomi, Stefania Maria Beole, Mihail Bogdan Blidaru, Bent Benedikt Buttwill, Eric Buschmann, Paolo Camerini, Francesca Carnesecchi, Marielle Chartier, Yongjun Choi, Manuel Colocci, Giacomo Contin, Dominik Dannheim, Daniele De Gruttola, Manuel Del Rio Viera, Andrea Dubla, Antonello di Mauro, Maurice Calvin Donner, Gregor Hieronymus Eberwein, Jan Egger, Laura Fabbietti, Finn Feindt, Kunal Gautam, Roman Gernhaeuser, James Julian Glover, Laura Gonella, Karl Gran Grodaas, Ingrid Maria Gregor, Hartmut Hillemanns, Lennart Huth, Armin Ilg, Artem Isakov, Daniel Matthew Jones, Antoine Junique, Jetnipit Kaewjai, Markus Keil, Jiyoung Kim, Alex Kluge, Chinorat Kobdaj, Artem Kotliarov, Kritsada Kittimanapun, Filip KřÞek, Gabriela Kucharska, Svetlana Kushpil, Paola La Rocca, Natthawut Laojamnongwong, Lukas Lautner, Roy Crawford Lemmon, Corentin Lemoine, Long Li, Francesco Librizzi, Jian Liu, Anna Macchiolo, Magnus Mager, Davide Marras, Paolo Martinengo, Silvia Masciocchi, Serena Mattiazzo, Marius Wilm Menzel, Alice Mulliri, Alexander Musta, Mia Rose Mylne, Francesco Piro, Alexandre Rachevski, Marika Rasà , Karoliina Rebane, Felix Reidt, Riccardo Ricci, Sara Ruiz Daza, Gaspare Saccà , Isabella Sanna, Valerio Sarritzu, Judith Schlaadt, David Schledewitz, Gilda Scioli, Serhiy Senyukov, Adriana Simancas, Walter Snoeys, Simon Spannagel, Miljenko Å uljić, Alessandro Sturniolo, Nicolas Tiltmann, Antonio Trifirò, Gianluca Usai, Tomas Vanat, Jacob Bastiaan Van Beelen, Laszlo Varga, Michele Verdoglia, Gianpiero Vignola, Anna Villani, Haakan Wennloef, Jonathan Witte, Rebekka Bettina Wittwer
Analogue test structures were fabricated using the Tower Partners Semiconductor Co. CMOS 65 nm ISC process. The purpose was to characterize and qualify this process and to optimize the sensor for the next generation of Monolithic Active Pixels Sensors for high-energy physics. The technology was explored in several variants which differed by: doping levels, pixel geometries and pixel pitches (10–25 μm). These variants have been tested following exposure to varying levels of irradiation up to 3 MGy and 1016 1 MeV neq cm−2. Here the results from prototypes that feature direct analogue output of a 4 × 4 pixel matrix are reported, allowing the systematic and detailed study of charge collection properties. Measurements were taken both using 55Fe X-ray sources and in beam tests using minimum ionizing particles. The results not only demonstrate the feasibility of using this technology for particle detection but also serve as a reference for future applications and optimizations.
Aglieri Rinella, G, Alocco, G, Antonelli, M, Baccomi, R, Beole, SM, Blidaru, MB, Buttwill, BB, Buschmann, E, Camerini, P, Carnesecchi, F, Chartier, M, Choi, Y, Colocci, M, Contin, G, Dannheim, D, De Gruttola, D, Del Rio Viera, M, Dubla, A, di Mauro, A, Donner, MC, Eberwein, GH, Egger, J, Fabbietti, L, Feindt, F, Gautam, K, Gernhaeuser, R, Glover, JJ, Gonella, L, Gran Grodaas, K, Gregor, IM, Hillemanns, H, Huth, L, Ilg, A, Isakov, A, Jones, DM, Junique, A, Kaewjai, J, Keil, M, Kim, J, Kluge, A, Kobdaj, C, Kotliarov, A, Kittimanapun, K, KřÞek, F, Kucharska, G, Kushpil, S, La Rocca, P, Laojamnongwong, N, Lautner, L, Lemmon, RC, Lemoine, C, Li, L, Librizzi, F, Liu, J, Macchiolo, A, Mager, M, Marras, D, Martinengo, P, Masciocchi, S, Mattiazzo, S, Menzel, MW, Mulliri, A, Musta, A, Mylne, MR, Piro, F, Rachevski, A, Rasà , M, Rebane, K, Reidt, F, Ricci, R, Ruiz Daza, S, Saccà , G, Sanna, I, Sarritzu, V, Schlaadt, J, Schledewitz, D, Scioli, G, Senyukov, S, Simancas, A, Snoeys, W, Spannagel, S, Å uljić, M, Sturniolo, A, Tiltmann, N, Trifirò, A, Usai, G, Vanat, T, Van Beelen, JB, Varga, L, Verdoglia, M, Vignola, G, Villani, A, Wennloef, H, Witte, J & Wittwer, RB 2024, 'Characterization of analogue Monolithic Active Pixel Sensor test structures implemented in a 65 nm CMOS imaging process', Nuclear Instruments and Methods in Physics Research Section A, vol. 1069, no. 2024, 169896. https://doi.org/10.48550/ARXIV.2403.08952, https://doi.org/10.1016/j.nima.2024.169896
Aglieri Rinella, G., Alocco, G., Antonelli, M., Baccomi, R., Beole, S. M., Blidaru, M. B., Buttwill, B. B., Buschmann, E., Camerini, P., Carnesecchi, F., Chartier, M., Choi, Y., Colocci, M., Contin, G., Dannheim, D., De Gruttola, D., Del Rio Viera, M., Dubla, A., di Mauro, A., ... Wittwer, R. B. (2024). Characterization of analogue Monolithic Active Pixel Sensor test structures implemented in a 65 nm CMOS imaging process. Nuclear Instruments and Methods in Physics Research Section A, 1069(2024), Article 169896. https://doi.org/10.48550/ARXIV.2403.08952, https://doi.org/10.1016/j.nima.2024.169896
@article{f3009a7daec5410b8c232746c7cbfc09,
title = "Characterization of analogue Monolithic Active Pixel Sensor test structures implemented in a 65 nm CMOS imaging process",
abstract = "Analogue test structures were fabricated using the Tower Partners Semiconductor Co. CMOS 65 nm ISC process. The purpose was to characterize and qualify this process and to optimize the sensor for the next generation of Monolithic Active Pixels Sensors for high-energy physics. The technology was explored in several variants which differed by: doping levels, pixel geometries and pixel pitches (10–25 μm). These variants have been tested following exposure to varying levels of irradiation up to 3 MGy and 1016 1 MeV neq cm−2. Here the results from prototypes that feature direct analogue output of a 4 × 4 pixel matrix are reported, allowing the systematic and detailed study of charge collection properties. Measurements were taken both using 55Fe X-ray sources and in beam tests using minimum ionizing particles. The results not only demonstrate the feasibility of using this technology for particle detection but also serve as a reference for future applications and optimizations.",
keywords = "CMOS, MAPS, Particle detection, Silicon, Solid state detectors, Test beam",
author = "{Aglieri Rinella}, Gianluca and Giacomo Alocco and Matias Antonelli and Roberto Baccomi and Beole, {Stefania Maria} and Blidaru, {Mihail Bogdan} and Buttwill, {Bent Benedikt} and Eric Buschmann and Paolo Camerini and Francesca Carnesecchi and Marielle Chartier and Yongjun Choi and Manuel Colocci and Giacomo Contin and Dominik Dannheim and {De Gruttola}, Daniele and {Del Rio Viera}, Manuel and Andrea Dubla and {di Mauro}, Antonello and Donner, {Maurice Calvin} and Eberwein, {Gregor Hieronymus} and Jan Egger and Laura Fabbietti and Finn Feindt and Kunal Gautam and Roman Gernhaeuser and Glover, {James Julian} and Laura Gonella and {Gran Grodaas}, Karl and Gregor, {Ingrid Maria} and Hartmut Hillemanns and Lennart Huth and Armin Ilg and Artem Isakov and Jones, {Daniel Matthew} and Antoine Junique and Jetnipit Kaewjai and Markus Keil and Jiyoung Kim and Alex Kluge and Chinorat Kobdaj and Artem Kotliarov and Kritsada Kittimanapun and Filip K{\v r}{\'i}{\v z}ek and Gabriela Kucharska and Svetlana Kushpil and {La Rocca}, Paola and Natthawut Laojamnongwong and Lukas Lautner and Lemmon, {Roy Crawford} and Corentin Lemoine and Long Li and Francesco Librizzi and Jian Liu and Anna Macchiolo and Magnus Mager and Davide Marras and Paolo Martinengo and Silvia Masciocchi and Serena Mattiazzo and Menzel, {Marius Wilm} and Alice Mulliri and Alexander Musta and Mylne, {Mia Rose} and Francesco Piro and Alexandre Rachevski and Marika Ras{\`a} and Karoliina Rebane and Felix Reidt and Riccardo Ricci and {Ruiz Daza}, Sara and Gaspare Sacc{\`a} and Isabella Sanna and Valerio Sarritzu and Judith Schlaadt and David Schledewitz and Gilda Scioli and Serhiy Senyukov and Adriana Simancas and Walter Snoeys and Simon Spannagel and Miljenko {\v S}ulji{\'c} and Alessandro Sturniolo and Nicolas Tiltmann and Antonio Trifir{\`o} and Gianluca Usai and Tomas Vanat and {Van Beelen}, {Jacob Bastiaan} and Laszlo Varga and Michele Verdoglia and Gianpiero Vignola and Anna Villani and Haakan Wennloef and Jonathan Witte and Wittwer, {Rebekka Bettina}",
note = "Publisher Copyright: {\textcopyright} 2024",
year = "2024",
month = dec,
doi = "10.48550/ARXIV.2403.08952",
language = "English",
volume = "1069",
journal = "Nuclear Instruments and Methods in Physics Research Section A",
issn = "0168-9002",
publisher = "Elsevier",
number = "2024",
}