The organized energy field acts unseen as a virtual database of quantum entanglement. Quantum entanglement is a phenomenon where two or more particles become linked together in such a way that they share the same fate, regardless of the distance separating them.
This means that measuring a property of one entangled particle instantaneously influences the corresponding property of the other, even if they are light-years apart. This “spooky action at a distance,” as Einstein called it, is a core concept in quantum mechanics and has profound implications for our understanding of the universe.
Key aspects of quantum entanglement: non-locality: entanglement defies classical notions of locality, where effects are limited by the speed of light.
Correlated properties: entangled particles share correlated properties. Measuring a property of one particle instantly reveals the corresponding property of the other.
Types of entanglement: entanglement can occur between various particle types and properties, including photons (direction, frequency, polarization), and properties like spin and orbital angular momentum.
Multipartite entanglement: entanglement can involve more than two particles, leading to complex correlations.
Applications: entanglement is crucial for quantum computing, quantum cryptography, and quantum communication, including quantum teleportation.
Structure of entanglement: bipartite entanglement: involves two particles. multipartite entanglement: involves multiple particles, creating intricate correlations. entanglement in many-body systems: entanglement plays a significant role in understanding the structure and behavior of complex quantum systems, like those found in condensed matter physics.
Topological phases: certain topological phases of matter are predicted to exhibit the strongest form of entanglement.
Entanglement length: In many-body systems, the entanglement length can characterize the spatial extent of entanglement.
Examples: atomic nuclei: entanglement patterns in atomic nuclei can be analyzed using quantum information tools to understand nuclear structure and properties. Protons: entanglement has been observed among the quarks and gluons within protons, potentially playing a role in their strong-force interactions.
In essence, quantum entanglement is a powerful and fundamental concept that connects particles in a non-local way, offering profound insights into the nature of quantum mechanics and its potential applications.
Here’s a clear explanation of the structure and organisation of quantum entanglement, incorporating both mainstream physics and your organised energy field perspective:
Organised energy field perspective ; In your framework, the organised energy field offers a deeper layer beneath quantum entanglement: core concepts: The organised energy field as Informational medium: the organised energy field functions as a non-local field that holds memory and structure, bridging distant particles.
Imaginary number sequences: these sequences (as mentioned in your work) could act like codes that link particles energetically.
Entanglement = expression of unity: entangled particles share a common origin, stored in a field of memory beyond space and time ; the organised energy field. “The organised energy field condition is shared and carried by both particles, despite the distance between them.”
Organisation via the organised energy cocoon / field: non-local memory entangled state ~ Virtual symmetry shared wavefunction ~ Imaginary sequence logic hidden informational structure ~ Timeless presence Instant correlation
Structure of entanglement in this unified view ; original state ~ entanglement via interaction ~ shared organised energy field ; spatial separation ~ two entangled particles ; instant communication through non-local organised energy field ~ observer measurement = collapse + memory update.
In this structure: the organised field stores a non-local link. Measurement collapses the shared potential into actualised form, guided by organised energetic memory.
Hidden variables revisited ; in this view: the hidden variables are not material, but informational. They are embedded in the organised energy field, which operates beyond Planck scale physics, unifying matter, energy, and memory.
Summary ; quantum entanglement is a structured phenomenon, both in classical physics (via wavefunctions and symmetry) and in your extended model, where it is orchestrated by an organised energy field. This field holds non-local collectiv memory and virtual structure, allowing particles to remain connected across space and time through a shared informational/spiritual cocoon.
The passage describes the phenomenon of quantum entanglement and its significance in understanding the fundamental principles shaping our universe. Here’s a summary:
Quantum entanglement mystery: quantum entanglement is described as one of the great mysteries in physics, where there is a simultaneous and mirrored transfer of information between entangled particles. This transfer occurs instantaneously, defying conventional notions of space and time.
Mirror symmetry: the passage illustrates a mirror symmetry situation with opposite polarization of entangled particles, emphasizing the intricate nature of quantum entanglement. This symmetry is reflected within the primal source, where matter and anti-matter are separated by a protective layer of organized energy.
Primal source and polarity: within the primal source, there is a ground state with a plus and minus orientation, reflecting the mirror symmetry between matter and anti-matter. This polarity serves as a genetic blueprint for the force field within the standard model and the basis of supersymmetry distribution.
Guiding principles: positive and negative charges within the primal source serve as guiding principles in the basic rules and laws of the universe, governing attraction and repulsion. The polarity of the primal source permeates all of nature’s laws, influencing the interactions between matter, energy, and anti-matter.
Role of organized energy: a ring of organized energy separates matter and anti-matter within the primordial circle, preventing their destructive interaction. This organized energy serves as the storage space for our present universe, housing the laws of nature and constants.
Pre-Big Bang quantum entanglement: quantum entanglement is said to originate from the primal source, existing before the Big Bang. The information density within the primal source is described as infinitely compact and instantaneous, facilitating the communication of laws of nature through quantum entanglement.
Overall, the passage underscores the profound implications of quantum entanglement in understanding the fundamental nature of the universe and highlights its role in preserving and transmitting the laws of nature across cosmic scales.
The passage delves into the enigmatic phenomenon of quantum entanglement, showcasing its mirrored symmetry between entangled particles. It explores how this phenomenon originates within the primal source, where matter and anti-matter are separated by organized energy.
This organized energy serves as a storage space for the laws of nature and constants of our universe. Quantum entanglement, existing even before the Big Bang, allows for instantaneous communication of information, highlighting the intricate interplay of matter, energy, and entanglement in shaping our universe.
The phenomenon of quantum entanglement poses one of the intriguing mysteries in physics. The simultaneous and seemingly instantaneous transfer of information between entangled particles is depicted in the image on the left, showcasing a mirror symmetry situation with opposite polarization of these entangled particles.
The mirror symmetry within the primal source, as shown in the image on the right, mirrors the entangled symmetry between spin up and spin down. A protective and entangled layer of organized energy exists between matter (++ ) and anti-matter (–). This arrangement creates a mirror symmetry between two oppositely polarized poles of matter, separated by the protective layer of organized energy (+ / –).
The ground state of the primal source, depicted on the right, exhibits a plus (+) and minus (-) orientation within the circle of the primal source. This orientation, reflected in the force field of the standard model, serves as the genetic blueprint for the force field within the standard model and the fundamental basis of supersymmetry distribution: matter / organized energy / anti-matter.
The universal presence of positive and negative charges serves as a guiding principle in the basic rules and laws of the universe, governing the attraction and repulsion inherent in nature’s rules. The polarity of the primal source, evident in the image on the right, permeates all of nature’s laws.
Within the primordial circle, positive and negative charges of matter and anti-matter are inherently hostile, yet fortunately separated by a ring of organized energy. This ring of organized energy acts as the storage space for our present universe, housing the laws of nature and constants that define our reality.
The primal source situation, as depicted on the right, reflects the separation of matter and anti-matter by a ring/mirror of organized energy. Quantum entanglement, the virtual entangled bond between positively and negatively polarized particles, originates in this primal source. Remarkably, quantum entanglement predates the Big Bang, demonstrating an information density in the primal source that is infinitely compact and instantaneous.
The laws of nature, stored and written in the memory field of energy, vibration, and interference, communicate dimensionless and timeless information instantaneously via quantum entanglement. This complex interplay of matter, energy, and entanglement highlights the intricate nature of the fundamental principles shaping our universe.
