A Deep learning library for neutrino telescopes
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Updated
Nov 29, 2024 - Python
A Deep learning library for neutrino telescopes
Python tools for working with the IceCube public data.
Code for calculating Coherent Elastic Neutrino-Nucleus Scattering (CEvNS) cross sections and recoil spectra. Also includes code for obtaining New Physics constraints from the COHERENT-2017 results.
A lightweight event generator for new physics in neutrino-nucleus scattering.
nuDoBe is a Python tool for neutrinoless double beta decay calculations based on an effective field theory approach.
Bayesian constraints on the astrophysical neutrino population from IceCube data
NuSD is a Geant4-based simulation framework developed to perform simulation studies on various segmented scintillation detectors.
Magnetic moments of astrophysical neutrino (supernova and ultra high-energy neutrinos)
This repository contains the code used to perform the analysis described in the paper "A stacked search for spatial coincidences between IceCube neutrinos and radio pulsars" (https://arxiv.org/abs/2306.03427). The code is written in Python 3.10 and uses the following packages: numpy, scipy, matplotlib, pandas, numba, multiprocessing.
Investigating coincident source-neutrino detections through simulations.
Title: Convolution Neural Networks for the CHIPS Neutrino Detector R&D Project
Rafelski, J., Birrell, J., Grayson, C., Steinmetz, A., Yang, C. T. Quarks to Cosmos: Particles and Plasma in Cosmological evolution. In press EPJ ST. arXiv:2409.19031 (2024).
Steinmetz, A. Modern topics in relativistic spin dynamics and magnetism. PhD dissertation. University of Arizona, 2023.
A Monte Carlo simulation of the electromagnetic cascade to compute the neutrino spectrum from cascade development.
Contribution to the Harald Fritzsch Memorial Volume edited by Gerhard Buchalla, Dieter Lüst and Zhi-Zhong Xing.
A Convolutional Neural Network Implementation for the CHIPS Water Cherenkov R&D Project.
Rafelski, J., Steinmetz, A., & Yang, C. T. Dynamic fermion flavor mixing through transition dipole moments. International Journal of Modern Physics A 38.31 (2023): 2350163.
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