Future high-luminosity hadron collider experiments feature unprecedented levels of event pile-up and extreme radiation environments, calling for sensors capable of 4D tracking, even after significant radiation damage. To this purpose, 3D sensors represent a viable solution, since they provide excellent radiation tolerance and very good temporal resolution. In particular, owing to the uniform electric field and weighting field distributions, 3D-trench electrode sensors from the INFN TIMESPOT project have shown a temporal resolution of ∼10 ps after irradiation fluences up to 1×10^17 1-Mev neq/cm^2. In spite of the excellent performance of these sensors, 3D-trench pixel technology is not yet fully established and the fabrication yield is not yet adequate for the production of large size pixel sensors. To improve the potential of the 3D-trench concept for large-area sensors, a new batch of sensors was designed at the University of Trento and fabricated at FBK, as part of the AIDAinnova project. Besides introducing some process improvements, this batch includes two different sensor variants: the standard one with continuous ohmic trenches, and a modified one with dashed ohmic trenches. On-wafer electrical test results show that most of the sensors have low leakage current and high breakdown voltage. Moreover, the fabrication yield for the new design variant is higher than that of the standard design.
New developments in 3D-trench electrode sensors / Ye, Jixing; Boscardin, Maurizio; Centis Vignali, Matteo; Ficorella, Francesco; Ali, Omar Hammad; Lai, Adriano; Loi, Angelo; Parellada Monreal, Laura; Ronchin, Sabina; Dalla Betta, Gian-Franco. - In: JOURNAL OF INSTRUMENTATION. - ISSN 1748-0221. - 20:06(2025), p. C06027. [10.1088/1748-0221/20/06/c06027]
New developments in 3D-trench electrode sensors
Ye, Jixing;Boscardin, Maurizio;Ficorella, Francesco;Ronchin, Sabina;Dalla Betta, Gian-Franco
2025-01-01
Abstract
Future high-luminosity hadron collider experiments feature unprecedented levels of event pile-up and extreme radiation environments, calling for sensors capable of 4D tracking, even after significant radiation damage. To this purpose, 3D sensors represent a viable solution, since they provide excellent radiation tolerance and very good temporal resolution. In particular, owing to the uniform electric field and weighting field distributions, 3D-trench electrode sensors from the INFN TIMESPOT project have shown a temporal resolution of ∼10 ps after irradiation fluences up to 1×10^17 1-Mev neq/cm^2. In spite of the excellent performance of these sensors, 3D-trench pixel technology is not yet fully established and the fabrication yield is not yet adequate for the production of large size pixel sensors. To improve the potential of the 3D-trench concept for large-area sensors, a new batch of sensors was designed at the University of Trento and fabricated at FBK, as part of the AIDAinnova project. Besides introducing some process improvements, this batch includes two different sensor variants: the standard one with continuous ohmic trenches, and a modified one with dashed ohmic trenches. On-wafer electrical test results show that most of the sensors have low leakage current and high breakdown voltage. Moreover, the fabrication yield for the new design variant is higher than that of the standard design.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
