用于未来强子对撞机实验的轻量级一级μ子轨道触发器

Proceedings of Topical Workshop on Electronics for Particle Physics — PoS(TWEPP2018) Pub Date : 2019-05-20 DOI:10.22323/1.343.0051

D. Cieri, S. Abovyan, V. Danielyan, M. Fras, P. Gadow, O. Kortner, S. Kortner, H. Kroha, F. Müller, S. Nowak, P. Richter, K. Schmidt-Sommerfeld

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引用次数: 0

摘要

单μ子触发器对强子对撞机实验的物理程序至关重要。为了将触发利率保持在合理的低位，它们必须高度选择性。大型强子对撞机实验中的μ子系统和未来的对撞机使用两个μ子室系统进行触发:快速触发室用于识别束交叉并提供粗略的动量估计，而较慢的精确触发室用于精确测量μ子轨迹。基于霍夫变换和线性回归技术，设计并在Zynq SoC器件上实现了一种快速轻量级的轨迹查找算法，成功地重建了单个触发扇区中的μ子轨迹。

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A Lightweight First-Level Muon Track Trigger for Future Hadron Collider Experiments

Single muon triggers are crucial for the physics programmes at hadron collider experiments. To keep the trigger rates reasonably low they must be highly selective. Muon systems at LHC experiments and at future colliders use two muon chamber system for triggering: fast trigger chambers to identify the bunch crossing and provide a coarse momentum estimation, and slower precision chambers, for precise measurements of the muon trajectory. A fast lightweight track finding algorithm, based on the Hough Transform and Linear Regression techniques, has been designed and implemented on a Zynq SoC device, reconstructing successfully muon tracks in a single trigger sector.

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Proceedings of Topical Workshop on Electronics for Particle Physics — PoS(TWEPP2018)

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