APS : Role of deexcitation in the final-state interactions of protons in neutrino-nucleus interactions

Ershova, A.; Blanchet, A.; Chakrani, J.; Niewczas, K.; Sobczyk, J.T.; Avanzini, M. Buizza; Cugnon, J.; Yevarouskaya, U.; David, J.-C.; Joshi, S.; Bolognesi, S.; Hassani, S.; Sgalaberna, D.; Hirtz, J.; Giganti, C.; Munteanu, L.; Juszczak, C.; Letourneau, A.; Dolan, S.; Rodríguez-Sánchez, J.L.

doi:10.1103/PhysRevD.108.112008

Article
Report number	arXiv:2309.05410
Title	Role of deexcitation in the final-state interactions of protons in neutrino-nucleus interactions
Related title	The role of de-excitation in the final-state interactions of protons in neutrino-nucleus interactions
Author(s)	Ershova, A. (IRFU, Saclay) ; Niewczas, K. (Wroclaw U. ; Gent U.) ; Bolognesi, S. (IRFU, Saclay) ; Letourneau, A. (IRFU, Saclay) ; David, J.-C. (IRFU, Saclay) ; Rodríguez-Sánchez, J.L. (La Coruna U.) ; Sobczyk, J.T. (Wroclaw U.) ; Blanchet, A. (Geneva U.) ; Avanzini, M. Buizza (LLR, Palaiseau) ; Chakrani, J. (LLR, Palaiseau) ; Cugnon, J. (Liege U.) ; Dolan, S. (CERN) ; Giganti, C. (LPNHE, Paris) ; Hassani, S. (IRFU, Saclay) ; Hirtz, J. (IRFU, Saclay) ; Joshi, S. (IRFU, Saclay) ; Juszczak, C. (Wroclaw U.) ; Munteanu, L. (CERN) ; Sgalaberna, D. (ETH, Zurich (main)) ; Yevarouskaya, U. (LPNHE, Paris)
Publication	2023-12-01
Imprint	2023-09-11
Number of pages	14
In:	Phys. Rev. D 108 (2023) 112008
DOI	10.1103/PhysRevD.108.112008 (publication)
Subject category	hep-ex ; Particle Physics - Experiment ; hep-ph ; Particle Physics - Phenomenology
Abstract	Present and next generation of long-baseline accelerator experiments are bringing the measurement of neutrino oscillations into the precision era with ever-increasing statistics. One of the most challenging aspects of achieving such measurements is developing relevant systematic uncertainties in the modeling of nuclear effects in neutrino-nucleus interactions. To address this problem, state-of-the-art detectors are being developed to extract detailed information about all particles produced in neutrino interactions. To fully profit from these experimental advancements, it is essential to have reliable models of propagation of the outgoing hadrons through nuclear matter able to predict how the energy is distributed between all the final-state observed particles. In this article, we investigate the role of nuclear de-excitation in neutrino-nucleus scattering using two Monte Carlo cascade models: NuWro and INCL coupled with the de-excitation code ABLA. The ablation model ABLA is used here for the first time to model de-excitation in neutrino interactions. As input to ABLA, we develop a consistent simulation of nuclear excitation energy tuned to electron-scattering data. The paper includes the characterization of the leading proton kinematics and of the nuclear cluster production during cascade and de-excitation. The observability of nuclear clusters as vertex activity and their role in a precise neutrino energy reconstruction is quantified.
Copyright/License	preprint: (License: arXiv nonexclusive-distrib 1.0) publication: © 2023-2024 authors (License: CC BY 4.0), sponsored by SCOAP³

$Top: nuclear transparency of $^{12}$C (ratio of a number of events without FSI to all events) depending on the position of the neutrino interaction inside the nucleus, simulated with INCL. The y-coordinate is averaged out to the 5 slices. The direction of the Z-axis corresponds to the neutrino direction. The center of the coordinate system is in the center of the nucleus. Bottom: nuclear transparency of $^{12}$C simulated with INCL and NuWro. The direction of the Z-axis corresponds to the outgoing proton direction. The center of the coordinate system is in the center of the nucleus. The solid lines are digitized from~\cite{Pandharipande:1992zz}.$ $Top: nuclear transparency of $^{12}$C (ratio of a number of events without FSI to all events) depending on the position of the neutrino interaction inside the nucleus, simulated with INCL. The y-coordinate is averaged out to the 5 slices. The direction of the Z-axis corresponds to the neutrino direction. The center of the coordinate system is in the center of the nucleus. Bottom: nuclear transparency of $^{12}$C simulated with INCL and NuWro. The direction of the Z-axis corresponds to the outgoing proton direction. The center of the coordinate system is in the center of the nucleus. The solid lines are digitized from~\cite{Pandharipande:1992zz}.$ $Missing energy profile extracted from the hole spectral function of Carbon~\cite{BENHAR1994493}. The area under the$ Show more plots

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记录创建於2023-11-28，最後更新在2024-01-24

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