Models of Psi Mediation

Models of Psi Mediation: A Classical and Quantum Approach  addresses both classical and quantum mechanical modeling approaches to psi phenomena including those pertaining to the role of psi phenomena such as the psi-mediated instrumental response (PMIR) and relative need-serving qualities of psi, psychokinesis as a primary psi process, and psi as a product of evolution via Darwinian theory. Also, the paper addresses classical models including electromagnetic models, energy field models, and the zero-point field model, and it addresses the associations of psi phenomena with quantum theory, and new approaches to such phenomena via quantum mechanical modeling. Also included is an overview of fundamental quantum mechanical laws, principles, and issues in regards to psi such as the Heisenberg uncertainty principle, superposition, quantum computation, decoherance, entropy, information processing, wave function collapse, and the measurement problem.

Description

Models of Psi Mediation: A Classical and Quantum Approach  addresses both classical and quantum mechanical modeling approaches to psi phenomena including those pertaining to the role of psi phenomena such as the psi-mediated instrumental response (PMIR) and relative need-serving qualities of psi, psychokinesis as a primary psi process, and psi as a product of evolution via Darwinian theory. Also, the paper addresses classical models including electromagnetic models, energy field models, and the zero-point field model, and it addresses the associations of psi phenomena with quantum theory, and new approaches to such phenomena via quantum mechanical modeling. Also included is an overview of fundamental quantum mechanical laws, principles, and issues in regards to psi such as the Heisenberg uncertainty principle, superposition, quantum computation, decoherance, entropy, information processing, wave function collapse, and the measurement problem. This papaer elaborates on the essential role of quantum information theory in regards to psi phenomena, the view of computational living systems, the macroscopic challenge for quantum computation and psychical re-search, the quantum efficiency of psi, and the non-local communicative nature of psi.

The paper includes topics on geomagnetic entanglement and permanent and seemingly macroscopic entanglement in regards to psi and calls for a redefinition of precognition, that does not defy the principle of causality (arrow of time), as a result of experient access to Nature’s probabilistic computations in real-time (i.e. once we start to view Nature as a quantum computational system, or similar to the human brain e.g. in regards to predictive coding, we will begin to see that it may not be the “future” experients of precognition receive, but rather probability based on past and real-time events calculated by the system).

This paper is included in all (A Quantum Approach Textbooks)


About the Author

Theresa M. Kelly, MsD, is a professor of scientific parapsychology, and has conducted psychical research for many years focusing on the phenomenology of psychic experiences, and the personality traits of psychic experients.


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AMAZON KINDLE

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Format

PDF

Print Length

23 pages (8.5" x 11")

Author - Publisher

Theresa M. Kelly – QPPResearch

Language

English

Categories

Parapsychology, Extrasensory Perception, ESP

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Keywords

psi phenomena, role of psi, psi-mediated instrumental response, psychokinesis, evolution, Darwinian theory, electromagnetic models, energy field models, zero-point field, quantum theory, Heisenberg uncertainty principle, superposition, quantum computation, decoherence, entropy, information processing, wave function collapse, measurement problem, quantum information theory, non-local communication, mediation of psi, universal information, four dimensionalism, geomagnetic entanglement, macroscopic entanglement, precognition, principle of causality, arrow of time, predictive coding, probability.