Evaluating Modifications to Classifiers for Identification of Higgs Bosons

Rishivarshil Nelakurti, Christopher Hill
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Abstract

The Higgs boson, discovered back in 2012 through collision data at the Large Hadron Collider (LHC) by ATLAS and CMS experiments, marked a significant inflection point in High Energy Physics (HEP). Today, it's crucial to precisely measure Higgs production processes with LHC experiments in order to gain insights into the universe and find any invisible physics. To analyze the vast data that LHC experiments generate, classical machine learning has become an invaluable tool. However, classical classifiers often struggle with detecting higgs production processes, leading to incorrect labeling of Higgs Bosons. This paper aims to tackle this classification problem by investigating the use of quantum machine learning (QML).
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评估为识别希格斯玻色子而对分类器进行的修改
早在 2012 年,ATLAS 和 CMS 实验就通过大型强子对撞机(LHC)的碰撞数据发现了希格斯玻色子,这标志着高能物理(HEP)的一个重要转折点。如今,利用大型强子对撞机实验精确测量希格斯粒子的产生过程对于洞察宇宙和发现任何不可见的物理现象至关重要。为了分析大型强子对撞机实验产生的大量数据,经典机器学习已成为一种宝贵的工具。然而,经典分类器在检测希格斯玻色子的产生过程时经常会遇到困难,导致对希格斯玻色子的错误标记。本文旨在通过研究量子机器学习(QML)的使用来解决这一分类问题。
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