Superluminal neutrinos and quantum cross-correlation theory of neutrino source location

TL;DR

This paper proposes a quantum cross-correlation method for neutrino source localization that improves timing accuracy and reduces analysis errors in experiments like OPERA, potentially enabling superluminal neutrino detection.

Contribution

It introduces a novel quantum cross-correlation approach for neutrino source localization, enhancing timing precision and error elimination in neutrino detection experiments.

Findings

High-accuracy delay time determination between neutrino signals

Elimination of blind analysis errors in timing corrections

Potential to detect superluminal neutrinos

Abstract

Based on the developed cross-correlation theory for remote location of neutrino source with two-detector setup for neutrino detection the modification of arrangement of the OPERA experiment is suggested. Within the framework of computing experiment based on the OPERA experimental data we show that the use of this theory makes it possible not only to determine with high accuracy the delay time between neutrino signals but to eliminate the errors of blind analysis by which all necessary time corrections for determination of signal "technologically unremovable" delay time between CERN and GSL are performed.