Detection of High-Energy Neutrino from Supernovae with DUNE

Authors:

Shane Komeiji, Alex Wen, Carlos Arg elles-Delgado

Date Created:

2025-01-01

Course Title:

Professor:

Not specified

About Paper:

While a core-collapse supernova can produce over 10 neutrinos using an existing simulation of type IIn and II-P supernovae and antineutrinos from nuclear processes, which contain nearly neutrino yields with varying densities of circumstellar material. all the energy of the supernova, these particles are difficult Using SIREN (a simulation software designed to inject and weight to detect on Earth. High-energy supernova neutrinos, which particle interactions based on detailed detector geometries), we are produced through the collision of an exploding supernova find the number of neutrinos interacting within the instrumented with the surrounding material, can be observed with Cherenkov- volumeforeachflavor. Ourpreliminaryresultsindicatethat, given based detectors of large masses to maximize the number of a supernova at a distance of 10 kiloparsecs, DUNE may detect up neutrino interactions, but full reconstruction of these events is to24startingneutrinoandantineutrinoevents,about8ofwhichare difficult. In this contribution, we will demonstrate the effective of the tau flavor. Since DUNE is a Liquid Argon Time Projection detectability of high-energy neutrinos from supernovae with the Chamber, reconstruction and separation of the energetic tracks Deep Underground Neutrino Experiment (DUNE), a liquid argon of the tau neutrinos are easier than with large-volume detectors experiment currently being designed and constructed. We first such as IceCube. This may enable more detailed signals from tau quantified the total number of starting events in DUNE across neutrinos and contribute to a deeper understanding of the flavor all flavors of neutrinos and antineutrinos, assuming optimistic composition of core-collapse supernovae neutrinos. detector efficiencies. We performed an analytical calculation The Relationship Between Insomnia Severity and Postoperative Pain:

Abstract:

While a core-collapse supernova can produce over 10 neutrinos using an existing simulation of type IIn and II-P supernovae and antineutrinos from nuclear processes, which contain nearly neutrino yields with varying densities of circumstellar material. all the energy of the supernova, these particles are difficult Using SIREN (a simulation software designed to inject and weight to detect on Earth. High-energy supernova neutrinos, which particle interactions based on detailed detector geometries), we are produced through the collision of an exploding supernova find the number of neutrinos interacting within the instrumented with the surrounding material, can be observed with Cherenkov- volumeforeachflavor. Ourpreliminaryresultsindicatethat, given based detectors of large masses to maximize the number of a supernova at a distance of 10 kiloparsecs, DUNE may detect up neutrino interactions, but full reconstruction of these events is to24startingneutrinoandantineutrinoevents,about8ofwhichare difficult. In this contribution, we will demonstrate the effective of the tau flavor. Since DUNE is a Liquid Argon Time Projection detectability of high-energy neutrinos from supernovae with the Chamber, reconstruction and separation of the energetic tracks Deep Underground Neutrino Experiment (DUNE), a liquid argon of the tau neutrinos are easier than with large-volume detectors experiment currently being designed and constructed. We first such as IceCube. This may enable more detailed signals from tau quantified the total number of starting events in DUNE across neutrinos and contribute to a deeper understanding of the flavor all flavors of neutrinos and antineutrinos, assuming optimistic composition of core-collapse supernovae neutrinos. detector efficiencies. We performed an analytical calculation The Relationship Between Insomnia Severity and Postoperative Pain:

Source:

Harvard / Harvard College | Adams House | Chemistry | 2027 / 2025

Topics:

neutrino, dune, supernova, supernovae, detector, high, number, tau, flavor, core, using, simulation

Co-authors:

@shanekomeiji301 , @alexwen302 , @carlosargellesdelgado303