S. Kuehn, Victor H. Benítez, J. Fernández-Tejero, C. Fleta, M. Lozano, M. Ullán, H. Lacker, L. Rehnisch, D. Sperlich, D. Ariza, I. Bloch, Sergio Cañas Díez, Ingrid Gregor, J. Keller, K. Lohwasser, L. Poley, Volker Prahl, N. Zakharchuk, M. Hauser, K. Jakobs, K. Mahboubi, R. Mori, U. Parzefall, J. Bernabéu, C. Lacasta, R. Marco, D. Santoyo, C. Solaz Contell, U. Soldevila Serrano, A. A. Affolder, A. Greenall, B. J. Gallop, P. W. Phillips

doi:10.1088/1748-0221/12/05/p05015

Summary

For the High-Luminosity upgrade of the Large Hadron Collider an increased instantaneous luminosity of up to 7.5 ⋅ 1034cm−2s−11034cm−2s−1, leading to a total integrated luminosity of up to 3000 fb−1fb−1, is foreseen. The current silicon and transition radiation tracking detectors of the ATLAS experiment will be unable to cope with the increased track densities and radiation levels, and will need to be replaced. The new tracking detector will consist entirely of silicon pixel and strip detectors. In this paper, results on the development and tests of prototype components for the new silicon strip detector in the forward regions (end-caps) of the ATLAS detector are presented. Flex-printed readout boards with fast readout chips, referred to as hybrids, and silicon detector modules are investig

Source type: Peer-reviewed study
DOI: 10.1088/1748-0221/12/05/p05015
Catalogue ID: SNmokyn8o2-hlt2yd

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Prototyping of hybrids and modules for the forward silicon strip tracking detector for the ATLAS Phase-II upgrade

Summary

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