_version_ 1866909617426006016
author Hong, Yanwen
Moussawi, Marwa Al
Ambrosino, Fabio
Anastasio, Antonio
Basnet, Samip
Bonechi, Lorenzo
Borselli, Diletta
Bross, Alan
Caputo, Antonio
Ciaranfi, Roberto
Cimmino, Luigi
Ciulli, Vitaliano
Alessandro, Raffaello D
Frosin, Catalin
Nyitrai, Gabor
Giammanco, Andrea
Giudicepietro, Flora
Gonzi, Sandro
Macedonio, Giovanni
Masone, Vincenzo
Orazi, Massimo
Paccagnella, Andrea
Peluso, Rosario
Dalmau, Anna Pla
Samalan, Amrutha
Saracino, Giulio
Scarpato, Giovanni
Strolin, Paolo
Tytgat, Michael
Vertechi, Enrico
author_facet Hong, Yanwen
Moussawi, Marwa Al
Ambrosino, Fabio
Anastasio, Antonio
Basnet, Samip
Bonechi, Lorenzo
Borselli, Diletta
Bross, Alan
Caputo, Antonio
Ciaranfi, Roberto
Cimmino, Luigi
Ciulli, Vitaliano
Alessandro, Raffaello D
Frosin, Catalin
Nyitrai, Gabor
Giammanco, Andrea
Giudicepietro, Flora
Gonzi, Sandro
Macedonio, Giovanni
Masone, Vincenzo
Orazi, Massimo
Paccagnella, Andrea
Peluso, Rosario
Dalmau, Anna Pla
Samalan, Amrutha
Saracino, Giulio
Scarpato, Giovanni
Strolin, Paolo
Tytgat, Michael
Vertechi, Enrico
contents The MUon RAdiography of VESuvius (MURAVES) project aims to use muography imaging techniques to study the internal structure of the summit of the Mt. Vesuvius, an active volcano near Naples, Italy. This paper presents recent advancements in both data analysis and simulation tools that enhance the quality and reliability of the experiments results. A new track selection method, termed the Golden Selection, has been introduced to select high quality muon tracks by applying a refined Chi2 based criterion. This selection improves the signal to background ratio and enhances the resolution of muographic images. Additionally, the simulation framework has been upgraded with the integration of the MULDER (MUon simuLation for DEnsity Reconstruction) library, which unifies the functionalities of pervious used libraries within a single platform. MULDER enables efficient and accurate modeling of muon flux variations due to topographical features. An agreement is shown between simulated and experimental flux map.
format Preprint
id arxiv_https___arxiv_org_abs_2505_14090
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Updates on MURAVES Project at Mt. Vesuvius
Hong, Yanwen
Moussawi, Marwa Al
Ambrosino, Fabio
Anastasio, Antonio
Basnet, Samip
Bonechi, Lorenzo
Borselli, Diletta
Bross, Alan
Caputo, Antonio
Ciaranfi, Roberto
Cimmino, Luigi
Ciulli, Vitaliano
Alessandro, Raffaello D
Frosin, Catalin
Nyitrai, Gabor
Giammanco, Andrea
Giudicepietro, Flora
Gonzi, Sandro
Macedonio, Giovanni
Masone, Vincenzo
Orazi, Massimo
Paccagnella, Andrea
Peluso, Rosario
Dalmau, Anna Pla
Samalan, Amrutha
Saracino, Giulio
Scarpato, Giovanni
Strolin, Paolo
Tytgat, Michael
Vertechi, Enrico
Instrumentation and Detectors
High Energy Physics - Experiment
The MUon RAdiography of VESuvius (MURAVES) project aims to use muography imaging techniques to study the internal structure of the summit of the Mt. Vesuvius, an active volcano near Naples, Italy. This paper presents recent advancements in both data analysis and simulation tools that enhance the quality and reliability of the experiments results. A new track selection method, termed the Golden Selection, has been introduced to select high quality muon tracks by applying a refined Chi2 based criterion. This selection improves the signal to background ratio and enhances the resolution of muographic images. Additionally, the simulation framework has been upgraded with the integration of the MULDER (MUon simuLation for DEnsity Reconstruction) library, which unifies the functionalities of pervious used libraries within a single platform. MULDER enables efficient and accurate modeling of muon flux variations due to topographical features. An agreement is shown between simulated and experimental flux map.
title Updates on MURAVES Project at Mt. Vesuvius
topic Instrumentation and Detectors
High Energy Physics - Experiment
url https://arxiv.org/abs/2505.14090