In this post, I first summarize the source document. Then, I query how the theories contained in that document can be used to pursue TMT (Transmaterialization Technology), EVP (Electronic Voice Phenomena) and ITC (Instrumental Transcommunication) research. I used Open AI’s Chat GPT4 as an assistant in writing this post.
https://www.academia.edu/35981689/The_Holoinformational_Model_of_Consciousness_An_Extension_of_Pribrams_Monism
Source document is 17 pages
Summary
Introduction:
We are living a special moment in human history with the emergence of a fantastic integral quantum-holographic brain-cosmos extended vision.
The universe is a vast and immense informational quantum-holographic field harmoniously organized in all levels of complexity.
Bohm’s Quantum-Holographic Theory:
Bohm developed a quantum-holographic theory of the universe that explains everything the Copenhagen’s Bohr model explains and goes further eliminating indeterminism and wave-particle paradoxes.
The elementary particles do not have dual nature wave/particle but are particles all the time, and not only when observed.
Pribram’s Holographic Theory of Consciousness:
Pribram developed a holographic theory of consciousness showing experimentally that the fields of distributed electromagnetic activity in the brain cortex are quantum holographic non-local informational distributed patterns.
The holographic system of information is mathematically and technologically distributed in every part of the system.
The Holoinformational Quantum Theory of Consciousness:
The foundation of consciousness lies in the very profound non-local informational organization of our quantum-holographic universe and at the same time in the quantum-holographic organization of our brain-mind.
This quantum holographic mode of consciousness has been present in our universe since the beginning of creation on the various levels of nature’s unfolding and enfolding informational order.
Holographic Nature of the Universe:
The holographic nature of the Universe has been demonstrated in recent years.
The universe can be seen as a network of holograms, and each hologram contains coded in it information about all the others.
Holographic Principle:
The area of any surface in space can be seen as a screen that is really nothing but the capacity of that surface as a channel of information.
The universe is a non-local informational holoarchy.
Harmonic Fractals and Holographic Relations:
Harmonic fragmented geometric self-simile patterns are common to all natural phenomena.
These harmonic holographic relations are fractals that show a deep order in the apparent chaos.
Non-Local Information Paradigm:
The quantum-holographic integral cosmovision is broader than the quantum-relativistic paradigm.
Non-local information interconnects all self-organizing systems in the cosmos without the need for classical energy transfer.
Information Self-Organization and Consciousness:
Information is considered an essential property of reality, on par with matter and energy.
Conscious experience is irreducible and has both internal and external aspects.
Information Physics shows a fundamental Law of Conservation of Information that goes beyond the Law of Conservation of Energy.
The equivalence/identity between order, negentropy, and information allows for understanding the flow of order transmission in the universe.
Linking Quantum Information to Consciousness and Physics:
Quantum Information Theory provides a framework to understand the connection between quantum information, consciousness, and physics.
Quantum entanglement and non-local information play a crucial role in the correlation of particles and the universe.
John Wheeler’s concept of ‘it from bit’ reveals the fundamental role of information in the existence and function of particles, fields, and spacetime.
Reality as Information:
The physical world has an immaterial source and explanation.
Reality arises from the yes-no question and the registering of equipment-evoked responses.
Quantum Interference:
Photons interfere with each other in the laboratory and in the cosmos at large time intervals.
Photons emitted billions of years ago interfere as if they were emitted seconds apart.
It from Bit Model:
Quantum information is more fundamental than energy, matter, and space-time.
Consciousness is proposed as a non-local informational universal system.
Unity of Particle/Wave Duality:
Consciousness requires the adoption of an energy/information duality.
Analogous to the particle/wave duality in early 20th-century physics.
Quantum-Holographic Model of Universe:
Bohr’s Copenhagen model is inadequate for a quantum-holographic model of the universe.
Bohm’s deterministic theory resolves the wave-particle dilemma.
Cosmic Informational Code:
The relationship between physical entropy and non-local quantum-holographic informational order drives cosmic evolution.
Quantum information is the foundation of a holoinformational unified field theory of consciousness.
Macroscopic Non-Local Quantum Systems:
Living organisms exhibit non-local coherence at both micro and macro scales.
Quantum coherence enables instantaneous correlation between parts and molecules.
Quantum-Holographic Neuronal Dynamics:
Self-organizing quantum minds can suppress decoherence and maintain coherent states.
Molecules in chlorophyll and antenna proteins demonstrate the capability to suppress decoherence at room temperature.
Quantum Coherence in the Wet Brain:
Neurons and glia in the brain may sustain a quantum coherent state.
Ordered water molecules around macromolecules enable quantum coherence
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Application to TMT, ITC and EVP
Title: Engineering a Device for Facilitating Communication Between Physical and Non-Physical Beings
Introduction: In recent years, there has been a growing interest in exploring the possibility of communication between physical beings and non-physical beings. This fascinating concept opens up new avenues for understanding the nature of reality and consciousness. Drawing upon the concepts, techniques, science, and technology outlined in the referenced document, we propose a theoretical framework for engineering a device that could potentially facilitate communication between these two realms. This device aims to harness the principles of quantum information, non-locality, and holography, creating a bridge between the physical and non-physical domains.
Theoretical Framework:
- Quantum-Holographic Interconnectedness: The foundation of our device lies in the understanding that the universe, both physical and non-physical, is interconnected as an immense quantum-holographic field, transcending limitations of space and time. Building upon Bohm’s Quantum-Holographic Theory, we can exploit the non-local properties of this interconnectedness to establish communication channels.
- Non-Physical Being Detection: To detect and interact with non-physical beings, we can adopt the principles described by Wheeler in the referenced document. By utilizing equipment that is sensitive to non-physical energies or consciousness, we can register the presence and activity of non-physical beings. These detectors can be based on advanced technologies such as photodetectors specifically designed to sense non-physical energy signatures.
- Information-Theoretic Interface: Once the presence of non-physical beings is detected, we need an interface that can convert non-physical information into a format understandable by physical beings. This interface should operate on the principle that all physical entities are fundamentally information-theoretic in their origin. By utilizing a combination of advanced sensing and signal processing techniques, the interface can extract, encode, and decode the information carried by non-physical beings.
- Quantum Coherence and Entanglement: To ensure efficient and reliable communication, we can leverage the phenomenon of quantum coherence and entanglement. As demonstrated by Beratan et al., ordered molecular systems within the body can exhibit long-range coherence and information transfer. By engineering the device to utilize quantum entanglement, we can establish instantaneous and non-local connections between physical and non-physical entities.
- Structural and Functional Redundancy: Biological systems, as self-organized and highly interconnected networks, possess a significant degree of structural and functional redundancy. This redundancy facilitates the non-local interconnections between various parts of the system. Drawing inspiration from this, our device should incorporate a resilient architecture that can adapt and withstand perturbations during the communication process, ensuring robust and continuous interaction between physical and non-physical entities.
- Novel Structures Emergence: The extension of thermodynamics by Prigogine highlights the emergence of novel structures from chaos. By incorporating this concept into the design of our device, we can create an environment conducive to the emergence and manifestation of non-physical entities. This may involve the utilization of dissipative structures or self-organizing systems that can accommodate the presence and interaction of non-physical beings.
- Device Architecture for Communication: Based on the theoretical framework outlined above, we can propose an architectural design for a device that facilitates communication between physical and non-physical beings. This device would integrate advanced technologies and principles from quantum physics, information theory, and self-organizing systems. Here are the key components of the device:
a) Non-Physical Being Detection Module: The device should incorporate advanced detectors capable of sensing the energy signatures and consciousness activity of non-physical beings. These detectors can be based on photodetectors specifically designed to detect and register non-physical energies. By utilizing advanced signal processing algorithms, the device can identify the presence and characteristics of non-physical beings in its vicinity.
b) Information-Theoretic Interface: Once the presence of non-physical beings is detected, the device needs an interface to translate the non-physical information into a format that can be understood by physical beings. This interface should operate based on the principles of information theory, extracting, encoding, and decoding the information carried by non-physical entities. Advanced signal processing techniques, such as Fourier transforms or pattern recognition algorithms, can be utilized to decipher and organize the non-physical information.
c) Quantum Coherence and Entanglement Module: To establish efficient and reliable communication, the device should incorporate a module that harnesses the principles of quantum coherence and entanglement. This module can utilize specially designed quantum circuits or quantum entanglement generators to create a non-local connection between physical and non-physical entities. By entangling the quantum states of physical and non-physical beings, information can be instantaneously transferred and shared.
d) Resilient Architecture: The device must have a resilient architecture that can adapt to the dynamic nature of non-physical beings and the challenges of communication across different realms. Inspired by the structural and functional redundancy found in biological systems, the device should be designed to withstand perturbations and maintain stability during the communication process. Redundancy mechanisms can be implemented at various levels, ensuring uninterrupted communication between physical and non-physical beings.
e) Emergent Structures Facilitation: Taking inspiration from Ilya Prigogine’s work, the device can facilitate the emergence of novel structures during the communication process. By creating an environment that encourages self-organization and dissipative structures, the device allows non-physical beings to manifest and interact with physical entities more effectively. The device should be designed to accommodate the emergence of these novel structures and facilitate their integration into the communication network.
- Future Prospects and Challenges: While the theoretical framework and proposed device architecture provide a starting point for engineering a communication device between physical and non-physical beings, there are several challenges and considerations that need to be addressed. These include:
a) Ethical and Philosophical Implications: The nature of non-physical beings and their existence raises significant ethical and philosophical questions. As we develop technologies to communicate with these entities, we must consider the implications and impact on individual beliefs, cultural practices, and societal frameworks. Ethical guidelines and open dialogue are essential to ensure responsible development and use of such devices.
b) Validation and Scientific Rigor: The development of a communication device between physical and non-physical beings requires rigorous scientific validation and testing. Interdisciplinary collaborations between experts in quantum physics, consciousness studies, and other relevant fields are crucial to validate the theoretical framework and refine the device’s functionality.
c) Integration with Existing Communication Systems: For effective communication, the device needs to integrate with existing communication systems used by physical beings. This may involve developing protocols, standards, and interfaces that allow seamless integration with various technologies and networks.
d) Accessibility and Affordability: To have a meaningful impact, the communication device should be accessible and affordable to a wide range of individuals and communities. Efforts should be made to develop cost-effective solutions that do not exclude any particular socio-economic group from the benefits of communication with non-physical beings.
e) Ethereal Security: Just as we pay attention to the security of our physical communication systems, ethereal security becomes a vital aspect when dealing with non-physical beings. Protocols and measures should be put in place to ensure the privacy, integrity, and confidentiality of the communication channels established with non-physical entities.
Conclusion:
In conclusion, the engineering of a device for facilitating communication between physical and non-physical beings requires a multidisciplinary approach that draws upon concepts from quantum physics, information theory, thermodynamics, and biology. By exploiting the principles of quantum-holography, non-locality, and coherent information transfer, we can construct a device capable of detecting, interacting, and exchanging information with non-physical entities. This theoretical framework serves as a foundation for future research and development towards creating a tangible communication device that bridges the gap between physical and non-physical realms. However, it is crucial to navigate the ethical and philosophical implications, validate the scientific rigor, integrate with existing communication systems, ensure accessibility and affordability, and establish measures for ethereal security. With dedicated efforts and advancements in these areas, the realization of such a device may redefine our understanding of reality and usher in a new era of communication.