Fast alignment of a complex tracking detector using advanced track models

Blobel V.; Kleinwort C.; Meier F.

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Fast alignment of a complex tracking detector using advanced track models

机译：使用高级跟踪模型快速对准复杂的跟踪检测器

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The inner silicon detector of the Compact Muon Solenoid experiment (CMS) at CERN's LHC consists of 16 588 modules. Charged-particle tracks in the detector are used to improve the accuracy to which the position and orientation of the modules are known. This contribution focuses on the Millepede-II algorithm, one of the two alignment algorithms used by CMS. Recently an advanced track model has been introduced into the CMS alignment procedure, which is based on the "Broken Lines" model and is able to take multiple Coulomb scattering in the detector material properly into account. We show the unique approach needed for solving the alignment problem in a reasonable amount of time. Emphasis is given to the mathematical treatment of the problem.

机译：欧洲核子研究组织LHC的紧凑型μ子螺线管实验（CMS）的内部硅探测器包括16 588个模块。检测器中的带电粒子轨道用于提高已知模块位置和方向的精度。此贡献着重于Millepede-II算法，这是CMS使用的两种对齐算法之一。最近，先进的航迹模型已引入CMS对准过程，该模型基于“折线”模型，并且能够适当考虑检测器材料中的多个库仑散射。我们展示了在合理的时间内解决对齐问题所需的独特方法。重点是对该问题的数学处理。

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《Computer physics communications》 |2011年第9期|共4页
作者
Blobel V.; Kleinwort C.; Meier F.;
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原文格式 PDF
正文语种 eng
中图分类计算机的应用;
关键词
Alignment; Broken Lines; Millepede; Particle tracking detectors; Solid-state detectors;

机译：对准;断线;米利佩德;粒子跟踪检测器;固态检测器;

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1. Fast alignment of a complex tracking detector using advanced track models [J] . Blobel V., Kleinwort C., Meier F. Computer physics communications . 2011,第9期

机译：使用高级跟踪模型快速对准复杂的跟踪检测器
2. A fast fiducial marker tracking model for fully automatic alignment in electron tomography [J] . Han Renmin, Zhang Fa, Gao Xin Bioinformatics . 2018,第5期

机译：电子断层扫描中全自动对准的快速基准标记跟踪模型
3. Particle tracking at cryogenic temperatures: the Fast Annihilation Cryogenic Tracking (FACT) detector for the AEgIS antimatter gravity experiment [J] . J. Storey, S. Aghion, C. Amsler, Journal of instrumentation: an IOP and SISSA journal . 2015,第2期

机译：低温温度下的粒子跟踪：用于AEGIS反物质重力实验的快速湮灭低温跟踪（事实）探测器
4. The Advanced Position Compensation to Improve the Dynamic Tracking Ability for Fast Moving Target in an Optoelectronic Tracking System [C] . Wu Nengwei, Zhao Lirong, Zhou Hui, ICO20: Optical Devices and Instruments . 2005

机译：先进的位置补偿功能可提高光电跟踪系统中快速移动目标的动态跟踪能力
5. Effectiveness of Fast Track and Advanced Fast Track programs at Montgomery College and feasibility of expansion to other colleges and universities. [D] . Katiraie, Fred. 2008

机译：蒙哥马利学院的快速通道和高级快速通道计划的有效性以及扩展到其他学院和大学的可行性。
6. A fast fiducial marker tracking model for fully automatic alignment in electron tomography [O] . Renmin Han, Fa Zhang, Xin Gao -1

机译：用于电子断层扫描全自动对准的快速基准标记跟踪模型
7. Fast alignment of a complex tracking detector using advanced track models [O] . Volker Blobela, Claus Kleinwortb, Frank Meierc 2016

机译：使用先进的轨道模型快速对准复杂的跟踪探测器

Fast alignment of a complex tracking detector using advanced track models

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