arXiv : Strategies for Beam-Induced Background Reduction at Muon Colliders

Ally, D; Carpenter, L; Holmes, T; Lee, L; Wagenknecht, P

If you experience any problem watching the video, click the download button below

Preprint
Report number	arXiv:2203.06773
Title	Strategies for Beam-Induced Background Reduction at Muon Colliders
Author(s)	Ally, D (U. Tennessee, Knoxville) ; Carpenter, L (U. Tennessee, Knoxville) ; Holmes, T (U. Tennessee, Knoxville) ; Lee, L (U. Tennessee, Knoxville ; Harvard U.) ; Wagenknecht, P (U. Tennessee, Knoxville)
Publication	2022
Imprint	2022-03-13
Number of pages	12
Presented at	2021 Snowmass Summer Study, Seattle, WA, United States, 11 - 20 July 2021
Subject category	physics.ins-det ; hep-ex ; Detectors and Experimental Techniques ; Particle Physics - Experiment
Study	IMCC
Abstract	Future collider detectors at muon colliders will be bombarded by Beam-Induced Backgrounds (BIB) due to the in-flight muon decays from the beam line. These backgrounds can inhibit the ability of the detector and subsequent data analysis to successfully reconstruct collision products. We explore methods for geometrically reducing these effects for use in the readout, triggering, and data analysis of future experiments. Studies are performed for a collision energy of 1.5 TeV, and a detector with a tungsten nozzle designed to block the majority of the BIB. In this context, detector strategies are explored to further reduce the BIB, with a focus on the innermost layers of the tracker where its density is highest. In addition, a conceptual design of a calorimeter built to reject BIB is presented.
Other source	Inspire
Copyright/License	preprint: (License: CC BY 4.0)

$[Top] The correlation between the hit time $t$ and the expected hit time $t_{\rm exp}$ is shown. The red contribution from the collision products shows a strong correlation, while the color scale shows the structure due to BIB contributions. The measured time $t$ [Bottom Left] and relative time $t_{\Delta}$ [Bottom Right] as a function of longitudinal position $z$ are also shown.$ $[Top] The correlation between the hit time $t$ and the expected hit time $t_{\rm exp}$ is shown. The red contribution from the collision products shows a strong correlation, while the color scale shows the structure due to BIB contributions. The measured time $t$ [Bottom Left] and relative time $t_{\Delta}$ [Bottom Right] as a function of longitudinal position $z$ are also shown.$ $[Top] The correlation between the hit time $t$ and the expected hit time $t_{\rm exp}$ is shown. The red contribution from the collision products shows a strong correlation, while the color scale shows the structure due to BIB contributions. The measured time $t$ [Bottom Left] and relative time $t_{\Delta}$ [Bottom Right] as a function of longitudinal position $z$ are also shown.$ Show more plots

Back to search

レコード　生成： 2024-03-09, 最終変更： 2024-03-14

ほとんど同じレコード

フルテキスト:

PDF

External link:

eConf

Add to personal basket
Export as BibTeX, MARC, MARCXML, DC, EndNote, NLM, RefWorks

CERN Document Server

Access articles, reports and multimedia content in HEP

Main menu

CERN Accelerating science