About this Research Topic
This research topic aims to explore the intriguing realm of quantum electromagnetic photon-mediated communication in neuronal networks, delving into the fascinating interplay between quantum electromagnetic fields (EMFs) and neural activity. While traditional neuroscience has primarily focused on biochemical and electrical signalling within the brain, recent advancements suggest a deeper layer of communication orchestrated by quantum phenomena and coherent electromagnetic patterns akin to those observed in radio and television transmissions.
Understanding the quantum nature of electromagnetic interactions in neuronal networks holds profound implications for our comprehension of brain function and could pave the way for revolutionary advancements in neuroscience and neurotechnology. By unravelling the mysteries of quantum EMF photon-mediated communication, we may uncover novel mechanisms underlying consciousness, cognition, and the treatment of neurological disorders.
This interdisciplinary research topic invites contributions that investigate various aspects of quantum EMF photon-mediated communication in neuronal networks, spanning theoretical modelling, experimental validation, and computational simulations. Topics of interest include, but are not limited to:
- Theoretical frameworks elucidating the quantum nature of electromagnetic interactions within neural networks.
- Experimental evidence supporting the existence of quantum EMF photon-mediated communication in neurons.
- Investigations into the role of neuronal microtubules as waveguides for quantum electromagnetic energy transfer.
- Development of novel imaging techniques to visualize and quantify quantum EMF patterns in the brain.
- Computational modelling of coherent EMF patterns and their implications for neural information processing and cognition.
- Exploration of potential applications in diagnostics and therapeutics for neurological disorders, leveraging insights from quantum EMF neuroscience.
Understanding the quantum nature of electromagnetic interactions in neuronal networks holds profound implications for our comprehension of brain function and could pave the way for revolutionary advancements in neuroscience and neurotechnology. By unravelling the mysteries of quantum EMF photon-mediated communication, we may uncover novel mechanisms underlying consciousness, cognition, and the treatment of neurological disorders.
This interdisciplinary research topic invites contributions that investigate various aspects of quantum EMF photon-mediated communication in neuronal networks, spanning theoretical modelling, experimental validation, and computational simulations. Topics of interest include, but are not limited to:
- Theoretical frameworks elucidating the quantum nature of electromagnetic interactions within neural networks.
- Experimental evidence supporting the existence of quantum EMF photon-mediated communication in neurons.
- Investigations into the role of neuronal microtubules as waveguides for quantum electromagnetic energy transfer.
- Development of novel imaging techniques to visualize and quantify quantum EMF patterns in the brain.
- Computational modelling of coherent EMF patterns and their implications for neural information processing and cognition.
- Exploration of potential applications in diagnostics and therapeutics for neurological disorders, leveraging insights from quantum EMF neuroscience.
Keywords: Quantum neuroscience, electromagnetic fields, photon-mediated communication, neuronal networks, microtubules, quantum biology, neuronal membrane, brain functions, neurotechnology.
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
