Speaker
Description
With the upgrade of the LHC to the High-Luminosity LHC (HL-LHC), the Inner Detector will be replaced with the new all-silicon ATLAS Inner Tracker (ITk) to maintain tracking performance in a high-occupancy environment and to cope with the increase in the integrated radiation dose.
Comprising an active area of $165\:\mathrm{m}^2$, the outer four layers in the barrel and six disks in the endcap region will host strip modules, built with single-sided micro-strip sensors and glued-on hybrids carrying the front-end electronics necessary for readout.
The strip sensors are manufactured as n$\mathrm{^+}$-in-p strip sensors from high-resistivity silicon in 8 different shapes, from square in the barrel staves to a stereo annulus wedge-shape in the endcap discs, developed to withstand a total fluence of $1.6 \times 10^{15} \:\mathrm{n_{eq}/cm^2}$ and a total ionising dose of $66 \:\mathrm{MRad}$.
In 2020 the ITk Strip Sensors project has transitioned into the pre-production phase, where 5% of the overall volume, a total of 1101 ATLAS18 wafers, was produced by Hamamatsu Photonics.
Before being shipped out for module building, the ATLAS18 main sensors were tested at different institutes in the collaboration for mechanical and electrical compliance with technical specifications, the quality control (QC), while fabrication parameters were verified using test structures from the same wafers, the quality assurance (QA).
The sensor QC evaluation program, test results and statistics, as well as experience gained from pre-production will be summarised in this contribution.
| contact person e-mail | christoph.klein@cern.ch |
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