What does this research mean for the field?

The CHRONOS-EIT protocol can detect non-linear phase shifts and retrocausal statistical anomalies in quantum mechanics with a sensitivity threshold of 10^-24 eV. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.ESTABLISHES_NEW_DIRECTION.

What question did this study set out to answer?

This research aims to test the limits of linearity in quantum mechanics and explore retrocausal anomalies.

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February 22, 2026Open Access

Protocol for Testing Non-linear Quantum Mechanics and Retrocausal Statistical Correlations via 600-second Spin-wave Storage in Eu3+:Y2SiO5

Key Points

This research aims to test the limits of linearity in quantum mechanics and explore retrocausal anomalies.
Developing the CHRONOS-EIT experimental protocol
Utilizing Eu3+:Y2SiO5 for its high coherence times
Implementing a 600-second quantum buffering system
Measuring non-linear phase shifts and deviations from the Born rule
Proposed sensitivity threshold of 10^-24 eV
Aims to surpass current tests of fundamental quantum constants
Detects potential retrocausal statistical anomalies

Abstract

This paper proposes a novel experimental protocol, CHRONOS-EIT, designed to probe the limits of linearity in quantum mechanics and detect potential retrocausal statistical anomalies. By utilizing the extraordinary coherence times of nuclear spins in Europium-doped Yttrium Orthosilicate (Eu3+: Y2SiO5), we propose a 600-second (10-minute) quantum buffering system. This duration serves as a temporal amplifier for non-linear phase shifts and deviations from the Born rule. The protocol targets a sensitivity threshold of 10^-24 eV, potentially surpassing current table-top tests of fundamental quantum constants.

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