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Main Authors: Ciuffoli, Emilio, Evslin, Jarah
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.07157
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author Ciuffoli, Emilio
Evslin, Jarah
author_facet Ciuffoli, Emilio
Evslin, Jarah
contents We show that whenever independent events are binned, there is no correlation between bins. In particular, neither the uncertainty in the energy resolution nor a systematic error in the energy response of a detector will lead to a correlation between bins. This is in contrast with a result that recently appeared in the literature, where it was claimed that the finite energy resolution could induce correlation between bins, changing the distribution of $Δχ^2$ when attempting to determine the neutrino mass ordering using reactor neutrinos. We will compute the expression for the variance of $Δχ^2$ in the case of non-nested hypotheses if correlations between bins are present, showing that they could indeed affect the distribution. We will also show, however, that the detector response cannot introduce statistical correlations between bins unless these are already present in the original spectrum. Both of these results are valid in general: the absence of correlation is true for any detector response and the distribution of $Δχ^2$ in the presence of (intrinsic) correlations, while obtained having the mass ordering in mind, it is true for any non-nested hypotheses.
format Preprint
id arxiv_https___arxiv_org_abs_2409_07157
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Finite Energy Resolution, Correlations Between Bins and Non-Nested Hypotheses
Ciuffoli, Emilio
Evslin, Jarah
High Energy Physics - Phenomenology
We show that whenever independent events are binned, there is no correlation between bins. In particular, neither the uncertainty in the energy resolution nor a systematic error in the energy response of a detector will lead to a correlation between bins. This is in contrast with a result that recently appeared in the literature, where it was claimed that the finite energy resolution could induce correlation between bins, changing the distribution of $Δχ^2$ when attempting to determine the neutrino mass ordering using reactor neutrinos. We will compute the expression for the variance of $Δχ^2$ in the case of non-nested hypotheses if correlations between bins are present, showing that they could indeed affect the distribution. We will also show, however, that the detector response cannot introduce statistical correlations between bins unless these are already present in the original spectrum. Both of these results are valid in general: the absence of correlation is true for any detector response and the distribution of $Δχ^2$ in the presence of (intrinsic) correlations, while obtained having the mass ordering in mind, it is true for any non-nested hypotheses.
title Finite Energy Resolution, Correlations Between Bins and Non-Nested Hypotheses
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2409.07157