4-Dimensional Trackers
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4-dimensional (4D) trackers with ultra fast timing (10-30 ps) and very fine spatial resolution (O(few $\mu$m)) represent a new avenue in the development of silicon trackers, enabling new physics capabilities beyond the reach of the existing tracking detectors. This paper reviews the impact of integrating 4D tracking capabilities on several physics benchmarks both in potential upgrades of the HL-LHC experiments and in several detectors at future colliders, and summarizes the currently available sensor technologies as well as electronics, along with their limitations and directions for R$\&$D.
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Cited by 1 Pith paper
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Towards 6D Tracking: A Study Of Using Fast-Timing For Measuring Track Position, Time, And Angles
Simulations of LGAD detectors show that inter-pixel timing differences enable single-layer track angle reconstruction at few-degree precision via a linear model that performs near-optimally compared to neural networks.
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