Fabrication and First Full Characterisation of Timing Properties of 3D Diamond Detectors
At a Glance
Section titled āAt a Glanceā| Metadata | Details |
|---|---|
| Publication Date | 2021-12-19 |
| Journal | Instruments |
| Authors | L. Anderlini, Marco Bellini, C. Corsi, S. Lagomarsino, C. Lucarelli |
| Institutions | University of Florence, Istituto Nazionale di Fisica Nucleare, Sezione di Firenze |
| Citations | 4 |
| Analysis | Full AI Review Included |
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View Original Abstract
Tracking detectors at future high luminosity hadron colliders are expected to be able to stand unprecedented levels of radiation as well as to efficiently reconstruct a huge number of tracks and primary vertices. To face the challenges posed by the radiation damage, new extremely radiation hard materials and sensor designs will be needed, while the track and vertex reconstruction problem can be significantly mitigated by the introduction of detectors with excellent timing capabilities. Indeed, the time coordinate provides extremely powerful information to disentangle overlapping tracks and hits in the harsh hadronic collision environment. Diamond 3D pixel sensors optimised for timing applications provide an appealing solution to the above problems as the 3D geometry enhances the already outstanding radiation hardness and allows to exploit the excellent timing properties of diamond. We report here the first full timing characterisation of 3D diamond sensors fabricated by electrode laser graphitisation in Florence. Results from a 270MeV pion beam test of a first prototype and from tests with a Ī² source on a recently fabricated 55Ć55Ī¼m2 pitch sensor are discussed. First results on sensor simulation are also presented.
Tech Support
Section titled āTech SupportāOriginal Source
Section titled āOriginal SourceāReferences
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