Unified calculation shows Earth density stratification biases CP phase up to 172 degrees at 12000 km baselines, with Planck-scale corrections partially compensating at 7000 km for certain Majorana phases.
Earth-Density Effects in Long Baseline Neutrino Experiments
2 Pith papers cite this work. Polarity classification is still indexing.
abstract
Earth matter density uncertainties play a non trivial role in three flavor neutrino oscillations in matter, particularly for the muon to electron appearance channel that underpins CP violation measurements in long baseline experiments. We demonstrate that when realistic spatial variations of the Earths density are taken into account, the oscillation probabilities acquire additional, energy dependent structures that cannot be captured by path-averaged density approximations. We show that mismodeling of the matter density profile can introduce degeneracies that obscure genuine leptonic CP violating effects, thereby degrading parameter sensitivity and biasing the inference of the CP phase. Identifying energy regions in which CP sensitivity remains robust against matter density uncertainties is therefore essential. These considerations indicate that marginalization over a single effective density parameter is insufficient for next generation precision measurements and motivate the incorporation of spatially resolved Earth density profiles in the analysis frameworks of future long-baseline neutrino oscillation experiments.
fields
hep-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Constant-density matter approximations introduce correlated systematic biases in long-baseline neutrino oscillation probabilities, with the tau channel showing the largest mean bias and variance.
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Earth-Density Stratification and Quantum Gravity Corrections in Long-Baseline Neutrino Oscillation Experiments
Unified calculation shows Earth density stratification biases CP phase up to 172 degrees at 12000 km baselines, with Planck-scale corrections partially compensating at 7000 km for certain Majorana phases.
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Correlated Matter Induced Biases in Long-Baseline Neutrino Oscillation Measurements
Constant-density matter approximations introduce correlated systematic biases in long-baseline neutrino oscillation probabilities, with the tau channel showing the largest mean bias and variance.