Кількісна оцінка ефектів взаємодії у кінцевому стані при визначенні енергії в експериментах із нейтрино глибоко під земною поверхнею

Кількісна оцінка ефектів взаємодії у кінцевому стані при визначенні енергії в експериментах із нейтрино глибоко під земною поверхнею

In neutrino-nucleus interactions, the particles produced at the primary vertex may be different from the particles observed in the final state. This is due to the effect of final-state interactions (FSI) on the particles during their transport in the nuclear matter to reach the detector (final state...

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Datum:2022
Hauptverfasser: Sharma, H.R., Nagu, S., Singh, J., Singh, R.B., Potukuchi, B.
Format: Artikel
Sprache:English
Veröffentlicht: Publishing house "Academperiodika" 2022
Schlagworte:
взаємодiя в кiнцевому станi
експерименти з нейтрино глибоко пiд земною поверхнею
помилковi подiї
реконструкцiя енергiї
Online Zugang:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2022452
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Назва журналу:Ukrainian Journal of Physics

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Ukrainian Journal of Physics
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Zusammenfassung:In neutrino-nucleus interactions, the particles produced at the primary vertex may be different from the particles observed in the final state. This is due to the effect of final-state interactions (FSI) on the particles during their transport in the nuclear matter to reach the detector (final state) after their production at the primary vertex. In this report, the energy reconstruction is done for charged current quasielastic (CCQE) and charged current resonance (CCRES) scatterings on the event-by-event basis using the calorimetric method, and NuWro and GENIE simulation tools. In addition, the percentage of fake events in CCQE and CCRES interactions is presented. It is found that the percentage of fake events is more than 50% for both CCQE and CCRES processes for both the generators, if we apply the condition for the signal events that the particles observed in the final state should be the same as the particles produced at the primary vertex. Based on our definition of signal events, the reconstructed energy and number of fake events may change, and this influences the measurement of oscillation parameters in long-baseline experiments like DUNE.

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