Abstract
For a future Super Large Hadron Collider (SLHC) all silicon trackers with real time triggering capability are under consideration. A doublet structure, consisting of axial strip layers spaced close by in radius, is a natural configuration for transverse momentum triggering in the ∼ 10-20 GeV/c range. Such structures are studied here in simulation in order to understand possible rejection power and data rates. Highly integrated multi-modular, ``stave'' structures have been under study as a general solution to the construction and design of a large silicon tracker. As a practical implementation of doublet trigger layers, staves are investigated here and found to offer certain simple technical extensions and advantages for this application.
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