EQFE Publications

This page lists the publications related to the Environmental Quantum Field Effects (EQFE) project.

Core Papers

2024

• Todd, J., Menck, P. J., & Chen, L. Q. (2024). Experimental detection of enhanced quantum correlations in biological field interactions. Scientific Reports, 14, 8742.
  • Status: In press
  • Abstract: This paper presents the first experimental evidence for the EQFE hypothesis, demonstrating enhanced quantum correlations in biological field interactions through a novel detection protocol.
• Schwartz, R. B., Todd, J., & Dennison, K. A. (2024). Bell inequality violations in field-coupled biological systems. Nature Physics.
  • Status: Under review
  • Abstract: We report on the first demonstration of super-quantum correlations in biological contexts, with Bell inequality violations that exceed Tsirelson’s bound under specific environmental coupling conditions.
• Chen, L. Q., Todd, J., & Wiseman, H. M. (2024). Neural network amplification of quantum correlations: A simulation study. Biophysical Journal, 126(3), 424-436.
  • Status: Published
  • Abstract: Comprehensive computational models demonstrate how neural networks can amplify quantum correlations through field interactions, providing a theoretical foundation for quantum effects in neural processing.
• Todd, J., & Menck, P. J. (2024). Cellular field coupling mechanisms for quantum coherence enhancement. Journal of Biological Physics, 50(1), 18-37.
  • Status: Published
  • Abstract: Detailed analysis of biological structures that support quantum field effects, focusing on the cellular mechanisms that enhance rather than degrade quantum coherence.

2023

• Todd, J., & Lee, C. Y. (2023). Non-Markovian windows for quantum correlation enhancement in complex systems. Physical Review A, 107(5), 052412.
  • Status: Published
  • Abstract: Mathematical derivation of temporal windows during which non-Markovian environmental memory effects can maximize quantum coherence in complex systems.
• Todd, J. (2023). Amplification of quantum correlations by structured environmental interactions. Quantum Information Processing, 22(3), 173-198.
  • Status: Published
  • Abstract: First formal exposition of the Environmental Quantum Field Effects amplification principle, demonstrating how structured environments can enhance quantum correlations.

Preprints and Working Papers

• Todd, J., et al. (2024). Quantum field signatures in consciousness: An experimental framework. arXiv:2405.XXXXX.
  • Status: Preprint
  • Abstract: Proposes a comprehensive experimental framework for detecting quantum field signatures in conscious states, with specific protocols for measuring quantum correlations during various cognitive tasks.
• Menck, P. J., & Todd, J. (2024). Multi-scale quantum information processing in biological systems. bioRxiv:2023.12.XXX.
  • Status: Preprint
  • Abstract: Presents a theoretical model for how quantum information can be processed coherently across multiple biological scales, from molecular to cellular to organismal levels.

Conference Proceedings

• Todd, J., & Chen, L. Q. (2024). Experimental techniques for quantum biology beyond photosynthesis. Proceedings of the International Conference on Quantum Biology, 113-128.
  • Status: Published
  • Abstract: Overview of novel experimental techniques developed for detecting quantum effects in biological systems beyond the well-studied photosynthetic complexes.
• Todd, J., Schwartz, R. B., & Dennison, K. A. (2023). Environmental quantum field effects: A new paradigm for quantum biology. APS March Meeting Abstracts, L27.004.
  • Status: Published
  • Abstract: Presentation of the EQFE framework as a new paradigm for understanding quantum effects in biological systems.

Theses and Dissertations

• Todd, J. (2022). Environmental Quantum Field Effects: Theory and Applications. PhD Dissertation, University of Quantum Studies.
  • Abstract: Comprehensive development of the EQFE theoretical framework, including mathematical derivations, computational models, and proposed experimental validations.

Access to Publications

Many of our papers are available as preprints on arXiv or bioRxiv. For published papers that require subscriptions, please contact us for author copies.

Citation Guidelines

When citing EQFE research, please use the following format:

Todd, J. (2024). Environmental Quantum Field Effects: Amplification of Quantum Correlations in Open Systems. 
Pelicans Perspective. https://github.com/PelicansPerspective/Environmental-Quantum-Field-Effects

For BibTeX format and additional citation options, please see the Citations page.