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==Historical background==
* '''2024 (December).''' Publication of "The Quantum Memory Matrix" introduces the hypothesis and local imprint operators, and addresses the [[Black hole information paradox]].<ref name="Neukart2024" />
* '''2024 (December).''' An IBM Quantum experiment demonstrates reversible imprinting and retrieval.<ref name="Arxiv2502">{{cite arXiv |last1=Neukart |first1=Florian |last2=Marx |first2=Eike |last3=Vinokur |first3=Valerii |eprint=2502.15766 |title=Reversible Imprinting and Retrieval of Quantum Information: Experimental Verification of the QMM Hypothesis |date=2025 |class=physics.gen-ph }}</ref>
* '''2025 (February).''' Two companion preprints extend QMM to electromagnetism<ref>{{cite journal |last=Neukart |first=F. |title=Planck-Scale Electromagnetism in the Quantum Memory Matrix: A Discrete Approach to Unitarity |journal=Preprints |year=2025 |number=2025030551 |doi=10.20944/preprints202503.0551.v1 |doi-access=free |url=https://www.preprints.org/manuscript/202503.0551/v1}}</ref><ref>{{cite arXiv |last1=Neukart |first1=Florian |last2=Marx |first2=Eike |last3=Vinokur |first3=Valerii |eprint=2502.15766v2 |title=Integrating Electromagnetic Interactions into the QMM Framework |date=2025 |class=physics.gen-ph }}</ref> and to the strong and weak sectors.<ref name="Neukart2025SW">{{cite journal |last=Neukart |first=F. |title=Extending the Quantum Memory Matrix Framework to the Strong and Weak Interactions |journal=Entropy |volume=27 |issue=2 |pages=153 |year=2025 |doi=10.3390/e27020153 |pmid=40003150 |pmc=11854125 |doi-access=free }}</ref>
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