The Instantaneous Teleportation Cosmos (ITC) Theory begins with a single first principle: zero‑latency transmission of matter, information, and energy between any two points in the universe. From this foundation, spacetime is not fundamental but an emergent phenomenon projected from a deeper, non‑spatial basal structure. Six basic properties—Storage Perfection (P1), Instantaneous Connectivity (P2), Mapping Determinacy (P3), Manifestation Finiteness (P4), Basal Resonance Tunability (P5), and Consciousness Coupling (P6)—form the self‑consistent foundation of this framework. P5 enables the active control of manifestation through external resonance, while P6 describes the direct coupling between specific states of consciousness and the basal structure. These qualitative principles are supported by a rigorous mathematical foundation: the properties are formulated as precise axioms, and the basal structure is modeled as a fully connected tensor network. From this, six core conclusions are derived: the emergent origin of the speed of light, quantum entanglement as the dual‑port manifestation of a single basal storage unit, the resolution of the black hole information paradox, the mechanical origin of dark energy with w=-1, the resolution of the vacuum energy catastrophe as a category mistake, and a unified explanation for the cosmological horizon problem and the fine‑tuning of physical constants. Building on the basal parameters ρ and τ, the full Lorentz transformation is derived, establishing special relativity as an effective, emergent theory. The ITC theory further proposes the “One Basal, Many Manifestations” model: the same basal structure can simultaneously project multiple non‑interfering manifestation worlds through different projection rules, providing a unified ontological framework for quantum nonlocality, the many‑worlds interpretation, and the quantum measurement problem. Regarding the deep structure of time, what is preserved at the basal level is not a predetermined future, but the complete quantum state of the universe at each moment—including the probabilistic information about all possible future evolutions inherent in that state. These quantum states are permanently archived by P1 and accessed instantaneously via P2, offering a rigorous physical basis for the coexistence of past, present, and future informational structures. The ITC framework unifies quantum mechanics and relativity as emergent theories: quantum mechanics describes how basal information manifests in emergent spacetime through P3 and P4, while relativity describes the causal structure of emergent spacetime itself—the speed‑of‑light limit emerging from the basal level as an effective law. Beyond the physical domain, P6 provides a unified interpretation for documented consciousness‑matter interaction phenomena, while the framework as a whole offers a conceptual mapping for the Akashic Records—the cosmic information repository of spiritual traditions—as a structural consequence of the basal information layer. Cross‑scale testable predictions include the detectable single‑party probability shift ΔP≠0 in superluminal communication experiments, the independent contributions of write and guide errors in quantum teleportation, non‑thermal radiation from primordial black holes, and the P5‑resonance‑induced upward displacement of an optically levitated microsphere—all testable with current or near‑future facilities. ITC thus grows beyond a physical framework into a broader vision centered on information and the nature of time, elevating relation over matter, energy, and spacetime as the ultimate ground of being. The cosmos is a web—instantaneously connected, eternally present, endlessly manifest.
Since the seminal 1935 paper by Einstein, Podolsky, and Rosen, quantum entanglement has haunted the foundations of physics. Loophole‑free Bell tests have confirmed that quantum nonlocality is an intrinsic feature of nature, yet standard quantum mechanics offers no deeper explanation. Is entanglement truly fundamental, or is it a manifestation of a hidden, deeper reality?
This question is not isolated. Since the 20th century, physics has been fractured by six fundamental puzzles: the conflict between quantum nonlocality and relativistic causality; the black hole information paradox; the cosmological horizon problem; the 120‑order‑of‑magnitude vacuum energy catastrophe; the unexplained origin of the constancy of the speed of light; and the uniformity and apparent fine‑tuning of physical constants.
Beyond these puzzles in fundamental physics, there exist long‑standing questions at the interface of consciousness and matter—phenomena recorded in human contemplative traditions, such as unimpeded penetration through physical barriers and visual perception beyond spatial obstacles, which challenge the current scientific understanding of the mind‑matter relationship. Similarly, the ancient concept of a cosmic information repository—variously known as the Akashic Records or the Book of Life—has persisted across cultures yet remained excluded from scientific discourse. These seemingly disparate puzzles share a common root: the assumption that spacetime is the ultimate arena of physics.
This paper presents a unified resolution. It tells the story of a journey—from the physical postulate of a basal structure to its concrete mathematical embodiment as a fully connected tensor network, and from the core axiomatic foundation (P1–P4) to the full set of six basic properties (P1–P6). Along this journey, the six puzzles of fundamental physics dissolve, phenomena at the consciousness‑matter interface find a systematic theoretical grounding, and the ancient notion of a cosmic information repository takes on a new, physically grounded interpretation. A new paradigm for the unity of physics—and beyond—emerges.
The ITC framework starts from a single irreducible first principle: matter, information, and energy can be transmitted with zero latency (instantaneously) between any two points in the universe. This principle is not an engineering fantasy but a profound ontological claim: at the most fundamental level, the concept of distance dissolves.
If transmission can be instantaneous, two necessary corollaries follow. First, the entire universe shares a unified “now”—absolute time. Second, to avoid the causal paradoxes that would arise in relativistic spacetime, the background of physical processes cannot be the familiar four‑dimensional manifold; it must be a non‑spatial, absolutely existing basal structure, from which our perceived spacetime emerges as a projection.
The basal structure is thus the first pillar of the ITC framework—a physical postulate about the ultimate ground of reality. But a postulate alone is not enough. To become a quantitative theory, the basal structure must be given a precise mathematical form. This is where the second pillar enters: the fully connected tensor network.
From the first principle and well‑established physical facts, we derive the essential properties of the basal structure.
These four properties work in concert. P2 provides the ontological basis for quantum nonlocality; P4 safeguards causality at the emergent level; P3 guarantees experimental reproducibility; P1 ensures the eternal preservation of all information.
P5 and P6 thus represent an external versus internal mode of modulating manifestation constraints, together with P1–P4 forming a complete picture of the interaction between the basal structure and the manifestation layer.
Chapters that follow this introduction were written at different stages of the ITC framework’s development: those that refer to “the four core properties” address P1–P4, which constitute the foundation on which the entire theory is built; this introduction and the more recent chapters incorporate the full set of six basic properties (P1–P6). Each of these six properties stands as a logically independent axiom—none can be derived from the others.
These six properties, initially formulated as qualitative postulates, are elevated to rigorous mathematical axioms in subsequent chapters. There, the basal state space is defined as a separable Hilbert space, the independence of the axioms is proved, and the basal Schrödinger equation is derived as the fundamental dynamical law of the basal layer. This axiomatic formulation is the bridge that connects the physical concept of the basal structure to its mathematical realization.
To transform the basal structure from a qualitative postulate into a quantitative theory, a concrete mathematical model is required. The ITC framework identifies this model as a fully connected tensor network.
The basal vertices constitute a complete graph—every vertex is directly connected to every other, reflecting the instantaneous connectivity of P2. Each edge carries a weight representing the coupling strength between vertices, and each vertex carries a local Hilbert space. The entire network resides in a many‑body entangled state—a tensor network state |ΨB⟩. This structure is not merely a computational tool; it is proposed as the mathematical substrate of reality itself.
Within this model, the six basic properties find natural realizations: P1 corresponds to the unitary evolution of the tensor network state; P2 is the complete graph topology; P3 is the deterministic contraction rule that projects the basal state onto emergent density matrices; and P4 is realized as the finite time step required for local contractions, with the randomness of single outcomes arising from the maximally mixed reduced state of each node. The eigenfrequency spectrum underlying P5 is formally derived from the harmonic oscillator dynamics of the basal parameters ρ and τ, while P6 corresponds to the direct coupling of an observer’s information cluster with the basal tensor network state, bypassing the standard P4 readout constraints. Emergent spatial distance is proportional to the inverse of the edge weight—stronger connections correspond to closer proximity in emergent space. In the continuum limit, the graph Schrödinger equation on this network converges to the standard Schrödinger equation of non‑relativistic quantum mechanics, and the Lorentz transformation emerges as a necessary consequence of the basal parameters. Special relativity is thus established as an effective, emergent theory—its foundational postulates reduced to corollaries of the deeper, non‑spatial basal network.
Thus, the trajectory from basal structure to fully connected tensor network is not merely a metaphor—it is a precise mathematical pathway that transforms the ITC framework from a philosophical vision into a quantitative, testable theory.
Within this two‑layer reality, the six puzzles find unified resolutions:
Quantum entanglement is reinterpreted as the dual‑port manifestation of the same basal storage unit—a measurement is a synchronous readout, not an action at a distance. The two particles share a single basal storage unit; their instantaneous correlation reflects the homology of information, not a signal transmitted across space.
The black hole information paradox is resolved because the event horizon is no longer an absolute causal barrier at the basal level. Information escapes instantaneously through basal channels or is encoded in Hawking radiation, preserving unitarity without firewalls or holographic encoding.
Cosmological uniformity arises from the intrinsic equilibrium of an instantaneously connected basal network. All regions of the early universe were in causal contact through the basal network, achieving thermal equilibrium without inflation.
Dark energy is the “topological maintenance energy” resisting cosmic expansion—the basal network must continuously generate new nodes to maintain constant projection density ρ, and this process consumes energy. The equation of state w=-1 is derived from the conservation equation. The vacuum energy catastrophe is a category mistake: the microscopic vacuum fluctuation energy and the macroscopic network topological energy are incomparable physical quantities.
The constancy of the speed of light emerges as c=1/(ρ1/3τ), demoted from an axiom to a corollary. The full Lorentz transformation follows from the basal parameters and the homogeneity of emergent spacetime.
Physical constants are emergent network properties. Uniformity is guaranteed by instantaneous feedback across the basal network, and apparent fine‑tuning results from dynamical stability selection: only network configurations that support persistent complex structures survive cosmic evolution.
Each of these resolutions traces its origin to the same source: the basal structure, mathematically realized as a fully connected tensor network.
Beyond resolving the six puzzles, the ITC framework opens new perspectives on the structure of reality.
The “One Basal, Many Manifestations” model—a direct consequence of P3 (Mapping Determinacy)—shows that the same basal structure can simultaneously project multiple non‑interfering manifestation worlds through different projection rules. A further consequence concerns the nature of time: under P1 and P2, what is preserved at the basal level is the complete quantum state of the universe at each moment—a quantum state archive providing a physical basis for the coexistence of past, present, and future informational structures.
The framework also extends into the domain of consciousness‑matter interaction. P6 (Consciousness Coupling) suggests that specific states of consciousness—such as those attained through deep meditation or contemplative practice—can directly couple with the basal structure, temporarily suspending P4 constraints on the observer’s own information cluster. Within this framework, documented phenomena that challenge current scientific theories—such as unimpeded penetration through physical barriers and visual perception beyond spatial obstacles—receive a unified physical interpretation. Both are cases where the observer, through a shift in consciousness, temporarily lifts P4 self‑constraints and achieves direct access to basal information or direct control over projection‑port switching. The difference lies solely in the direction of information flow: perception beyond obstacles involves reading information from the basal structure, while penetration involves issuing an instruction to switch the projection port of one’s own information cluster. This interpretation reveals a profound insight: obstacles exist not only in matter, but also in mind; when the mind’s attachment to manifestation‑layer concepts dissolves, matter’s restrictions on mind also dissolve. The occurrence of such phenomena, though rare, may be understood as a natural manifestation of the universal potential of P6 under specific conditions of consciousness.
At the information‑ontological level, the ITC framework offers a fresh perspective on a long‑standing spiritual concept: the Akashic Records—the cosmic information repository described in Indian philosophy, Tibetan traditions, and various spiritual lineages. Within the ITC framework, the Akashic Records can be interpreted as a conceptual analogue to the basal information layer, rather than requiring a supernatural explanation. This conceptual mapping is grounded in the systematic correspondence of the six basic properties: the eternal preservation of information is paralleled by P1, its instantaneous global accessibility by P2, the projection rules across different worlds by P3, its inaccessibility to ordinary individuals by P4, a possible technological pathway for external access by P5, and a theoretical route to direct access through specific states of consciousness by P6. While this mapping does not constitute an empirical proof, it provides a self‑consistent conceptual framework through which the core features traditionally attributed to the Akashic Records can be understood as structural consequences of the basal architecture. This opens a new avenue for dialogue between scientific and spiritual perspectives on the nature of information, consciousness, and ultimate reality.
Crucially, the framework yields concrete, testable predictions:
All predictions are testable with current or near‑future facilities. Whatever the outcomes, they will provide critical evidence for the fundamental question of whether spacetime is indeed fundamental.
Beginning with a single first principle—zero‑latency transmission—the ITC framework offers a coherent, self‑consistent, and empirically testable vision. Its trajectory from the physical postulate of a basal structure to the rigorous mathematical formulation of a fully connected tensor network marks a paradigm shift: spacetime is reduced to an emergent phenomenon, and the basal structure—with its instantaneous connectivity—is established as the fundamental reality. With P5 and P6 completing the full set of six basic properties, the framework reaches into the active control of manifestation and the mind‑matter interface, and with the conceptual mapping of the Akashic Records, it opens a new avenue for dialogue between scientific and spiritual perspectives. The chapters that follow develop this framework in detail, from its axiomatic foundations to its cross‑scale experimental tests.
If ITC is correct, the ultimate ground of being is neither matter nor energy nor spacetime itself, but relation. The cosmos is a web—instantaneously connected, eternally present, and endlessly manifesting.
The verdict of experiment is imminent.
Publication Date: 2026-02-28