DEMPgen: Physics event generator for Deep Exclusive Meson Production at Jefferson Lab and the EIC

IF 7.2 2区物理与天体物理 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computer Physics Communications Pub Date : 2024-11-22 DOI:10.1016/j.cpc.2024.109444

Z. Ahmed , R.S. Evans , I. Goel , G.M. Huber , S.J.D. Kay , W.B. Li , L. Preet , A. Usman

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引用次数: 0

Abstract

There is increasing interest in deep exclusive meson production (DEMP) reactions, as they provide access to Generalized Parton Distributions over a broad kinematic range, and are the only means of measuring pion and kaon charged electric form factors at high

Q^{2}

. Such investigations are a particularly useful tool in the study of hadronic structure in QCD's transition regime from long-distance interactions described in terms of meson-nucleon degrees of freedom, to short-distance interactions governed by hard quark-gluon degrees of freedom. To assist the planning of future experimental investigations of DEMP reactions in this transition regime, such as at Jefferson Lab and the Electron-Ion Collider (EIC), we have written a special purpose event generator, DEMPgen. Currently, DEMPgen can generate the following reactions: t-channel

p (e, e^{'} π^{+}) n

p (e, e^{'} K^{+}) Λ [Σ^{0}]

, and

\vec{n} (e, e^{'} π^{-}) p

from a polarized ³He target. DEMPgen is modular in form, so that additional reactions can be added over time.

The generator produces kinematically-complete reaction events which are absolutely-normalized, so that projected event rates can be predicted, and detector resolution requirements studied. The event normalization is based on parameterizations of theoretical models, appropriate to the kinematic regime under study. Both fixed target modes and collider beam modes are supported. This paper presents the structure of the generator, the model parameterizations used for absolute event weighting, the kinematic distributions of the generated particles, some initial results using the generator, and instructions for its use.

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人们对深层排他性介子产生（DEMP）反应的兴趣与日俱增，因为它们提供了在广泛运动学范围内获得广义粒子分布的途径，并且是在高Q2下测量先驱和高子带电形式因子的唯一手段。在 QCD 从介子-核子自由度描述的长距离相互作用到由硬夸克-胶子自由度支配的短距离相互作用的过渡体制中，这种研究是研究强子结构的一个特别有用的工具。为了协助规划未来在这一过渡机制下的 DEMP 反应实验研究，例如在杰斐逊实验室和电子-离子对撞机（EIC）上的实验研究，我们编写了一个特殊用途的事件发生器 DEMPgen。目前，DEMPgen 可以生成以下反应：来自极化 3He 靶的 t 道 p(e,e′π+)n、p(e,e′K+)Λ[Σ0]和 n→(e,e′π-)p。DEMPgen 采用模块化形式，因此可以随着时间的推移添加更多的反应。生成器生成运动学上完整的反应事件，这些事件是绝对归一化的，因此可以预测预计的事件速率，并研究探测器的分辨率要求。事件归一化基于理论模型的参数化，适合所研究的运动学机制。固定目标模式和对撞机光束模式均可支持。本文介绍了生成器的结构、用于绝对事件加权的模型参数化、生成粒子的运动学分布、使用生成器的一些初步结果以及使用说明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Computer Physics Communications 物理-计算机：跨学科应用

CiteScore

12.10

自引率

3.20%

发文量

287

审稿时长

5.3 months

期刊介绍： The focus of CPC is on contemporary computational methods and techniques and their implementation, the effectiveness of which will normally be evidenced by the author(s) within the context of a substantive problem in physics. Within this setting CPC publishes two types of paper. Computer Programs in Physics (CPiP) These papers describe significant computer programs to be archived in the CPC Program Library which is held in the Mendeley Data repository. The submitted software must be covered by an approved open source licence. Papers and associated computer programs that address a problem of contemporary interest in physics that cannot be solved by current software are particularly encouraged. Computational Physics Papers (CP) These are research papers in, but are not limited to, the following themes across computational physics and related disciplines. mathematical and numerical methods and algorithms; computational models including those associated with the design, control and analysis of experiments; and algebraic computation. Each will normally include software implementation and performance details. The software implementation should, ideally, be available via GitHub, Zenodo or an institutional repository.In addition, research papers on the impact of advanced computer architecture and special purpose computers on computing in the physical sciences and software topics related to, and of importance in, the physical sciences may be considered.