Tracking charged particles in the zero curvature limit

J. Alcaraz Maestre (CIEMAT-Madrid)

arXiv:2109.00845·physics.ins-det·September 3, 2021

Tracking charged particles in the zero curvature limit

J. Alcaraz Maestre (CIEMAT-Madrid)

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TL;DR

This paper proposes a robust method for tracking charged particles in the zero curvature limit, avoiding common issues and providing explicit formulas for key processes in simplified regions.

Contribution

It introduces a new approach that simplifies tracking in zero curvature conditions and offers explicit expressions for transport, refitting, and vertexing.

Findings

01

Avoids precision issues in zero curvature tracking

02

Provides explicit formulas for transport and vertexing

03

Applicable in regions with negligible magnetic inhomogeneities

Abstract

In this report we discuss appropriate strategies for the tracking of charged particles in the limit of zero curvature. The suggested approach avoids special treatments and precision issues that frequently arise in that limit. We provide explicit expressions for transport, refitting and vertexing in regions where magnetic field inhomogeneities or detector interaction effects can be approximately ignored.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · High-Energy Particle Collisions Research · Dark Matter and Cosmic Phenomena