Abstract
The NOνA experiment is a two-detector, long-baseline neutrino experiment operating in the recently upgraded NuMI muon neutrino beam. Simulating neutrino interactions and backgrounds requires many steps including: the simulation of the neutrino beam flux using FLUKA and the FLUGG interface; cosmic ray generation using CRY; neutrino interaction modeling using GENIE; and a simulation of the energy deposited in the detector using GEANT4. To shorten generation time, the modeling of detector-specific aspects, such as photon transport, detector and electronics noise, and readout electronics, employs custom, parameterized simulation applications. We will describe the NOνA simulation chain, and present details on the techniques used in modeling photon transport near the ends of cells, and in developing a novel data-driven noise simulation. Due to the high intensity of the NuMI beam, the Near Detector samples a high rate of muons originating in the surrounding rock. In addition, due to its location on the surface at Ash River, MN, the Far Detector collects a large rate (˜ 140 kHz) of cosmic muons. We will discuss the methods used in NOνA for overlaying rock muons and cosmic ray muons with simulated neutrino interactions and show how realistically the final simulation reproduces the preliminary NOνA data.
Highlights
The NOvA simulation chainThis content has been downloaded from IOPscience
NOνA [1] is a two-detector, long-baseline neutrino oscillation experiment located 14 mrad offaxis from the NuMI neutrino beam and is designed to measure the oscillation probabilities for νμ → νe and νμ → νe
Since the avalanche amplification process in an avalanche photodiodes (APDs) consists of many random charge multiplications, and the log-normal distribution can be considered the limit of the product of many independent random variables, we model the theoretical distribution as doi:10.1088/1742-6596/664/7/072002
Summary
This content has been downloaded from IOPscience. Please scroll down to see the full text. Ser. 664 072002 (http://iopscience.iop.org/1742-6596/664/7/072002) View the table of contents for this issue, or go to the journal homepage for more. Download details: IP Address: 131.215.70.231 This content was downloaded on 22/04/2016 at 22:23 Please note that terms and conditions apply. 21st International Conference on Computing in High Energy and Nuclear Physics (CHEP2015) IOP Publishing. Journal of Physics: Conference Series 664 (2015) 072002 doi:10.1088/1742-6596/664/7/072002
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