Quantum
View article: THE LATENT ENTANGLEMENT MODEL (LEM) Complete Mathematical Framework with Empirical Validation v 2.8
THE LATENT ENTANGLEMENT MODEL (LEM) Complete Mathematical Framework with Empirical Validation v 2.8 Open
The Latent Entanglement Model (LEM) presents a comprehensive reinterpretation of quantum mechanics, proposing that stable matter emerges from collision dynamics between tachyonic (future-biased) and brachyonic (past-biased) particles in a …
View article: Predicting the equivalent alkane carbon number of oils using graph neural networks and quantum mechanical descriptors
Predicting the equivalent alkane carbon number of oils using graph neural networks and quantum mechanical descriptors Open
View article: Machine Learning-Accelerated Quantum State Tomography for High-Dimensional Systems
Machine Learning-Accelerated Quantum State Tomography for High-Dimensional Systems Open
The characterization of large-scale quantum systems is a critical bottleneck in the development of quantum technologies. Standard quantum state tomography (QST) suffers from the curse of dimensionality, requiring resources that scale expon…
View article: Phase Space Diagnostic for Hamiltonian Discovery in Multi-Timescale Complex Systems: The Taming of the Quantum Shrew
Phase Space Diagnostic for Hamiltonian Discovery in Multi-Timescale Complex Systems: The Taming of the Quantum Shrew Open
---update with softeware adddition--- We present a novel diagnostic framework for identifying Hamiltonian structure in complex fluid dynamics through systematic exploration of collapse metrics across three-timescale parameter space…
View article: The Dense Gravity Theory (DGT): A Defined Scalar-Tensor Model for Singularity Resolution
The Dense Gravity Theory (DGT): A Defined Scalar-Tensor Model for Singularity Resolution Open
We present the Dense Gravity Theory (DGT), a theoretical model that resolves the singularity of General Relativity (GR) by postulating a Finite Maximum Quantum Density ($\rho_■$)...
View article: Quantum-Gravitational-Informational Theory (QGI): A First-Principles Framework for Fundamental Physics
Quantum-Gravitational-Informational Theory (QGI): A First-Principles Framework for Fundamental Physics Open
This record contains the definitive version (v4) of the Quantum-Gravitational-Informational (QGI) Theory, developed by Marcos Eduardo de Aquino Junior.The QGI framework unifies gravitation, quantum mechanics, and cosmology from a …
View article: Numerical solution of nonlinear diffusion-reaction in porous catalysts using quantum spectral successive linearization method
Numerical solution of nonlinear diffusion-reaction in porous catalysts using quantum spectral successive linearization method Open
Significant advances in quantum computing science have been achieved through the development of general-purpose quantum solvers for linear differential equations in several studies. This study employs a hybrid quantum-spectral approach to …
View article: Quantum time-marching algorithms for solving linear transport problems including boundary conditions
Quantum time-marching algorithms for solving linear transport problems including boundary conditions Open
This data belongs to the article, which presents the first complete application of a quantum time-marching algorithm for simulating multidimensional linear transport phenomena with arbitrary boundaries, whereby the success probabilities ar…
View article: Quantum time-marching algorithms for solving linear transport problems including boundary conditions
Quantum time-marching algorithms for solving linear transport problems including boundary conditions Open
This data belongs to the article, which presents the first complete application of a quantum time-marching algorithm for simulating multidimensional linear transport phenomena with arbitrary boundaries, whereby the success probabilities ar…
View article: Quantum Measurement and Macroscopic Definiteness in Amrita Field Theory: A Compression-Based Intermediate-Layer Model
Quantum Measurement and Macroscopic Definiteness in Amrita Field Theory: A Compression-Based Intermediate-Layer Model Open
This paper develops an intermediate-layer account of quantum measurement within the Amrita Field Theory (AFT) framework. Instead of postulating fundamental collapse or many parallel worlds, measurement is modeled as a multi-scale informati…
View article: The Informational Singularity Hypothesis (ISH): A Working Unification Formula Linking Microinformation and Macroenergy
The Informational Singularity Hypothesis (ISH): A Working Unification Formula Linking Microinformation and Macroenergy Open
The Informational Singularity Hypothesis (ISH) proposes that all physical reality emerges from a single informational principle — that the universe behaves as a self-consistent informational point. The central result of …
View article: The Ontological Reconstruction of the Feynman Path Integral
The Ontological Reconstruction of the Feynman Path Integral Open
This paper presents a formal proof that the Feynman Path Integral formulation of Quantum Field Theory is not a fundamental postulate, but a derived consequence of the axiomatic system of Recursive Self-Relation (SDRIS C-2a1). I demonstrate…
View article: Informational Resonance Fusion in the TGIU Framework: From Curvature Dynamics to Sustainable Energy Generation
Informational Resonance Fusion in the TGIU Framework: From Curvature Dynamics to Sustainable Energy Generation Open
The Informational Resonance-Assisted Fusion (IRAF) model, derived from the Universal Gravito–Informational Theory (TGIU), proposes a novel physical pathway to achieve nuclear fusion far below classical thermal thresholds. Instead of extrem…
View article: Generalized Quantum Eigenvalue Formulation for the Neutrino Billiard via Boundary Integral Method
Generalized Quantum Eigenvalue Formulation for the Neutrino Billiard via Boundary Integral Method Open
Massless neutrinos are spin-1/2 fermions governed by the relativistic Dirac equation. By exploiting series expansions of the Bessel functions that separately represent the real and imaginary parts of the free-space Green’s function of the …
View article: The Processing-Rate Theory: A Scalar-Informational Extension of Proper Time and Strong-Field Dynamics
The Processing-Rate Theory: A Scalar-Informational Extension of Proper Time and Strong-Field Dynamics Open
This work develops the Processing-Rate Theory (PRT), a scalar-informational extension of general relativity in which physical proper time is governed by a local processing-rate field R(x). Matter evolves according to an effective temporal …
View article: The Philosophy Behind the Theory of Relative Cosmic Equilibrium (RCE): The Final Truth of Physical Reality
The Philosophy Behind the Theory of Relative Cosmic Equilibrium (RCE): The Final Truth of Physical Reality Open
Modern physics is built upon an implicit assumption: that measurable quantities such as mass, time, energy, pressure, or curvature exist as absolute entities capable of direct observation. In this work, we argue that this assumption is fun…
View article: The Phi -Attractor Mechanism: From Fractal Disorder to Recursive Continuity and Emergent Time
The Phi -Attractor Mechanism: From Fractal Disorder to Recursive Continuity and Emergent Time Open
Recursion is impossible without time, yet time cannot exist until a system possesses a rule that relates successive states. This circular dependency is the central, unexamined barrier in attempts to unify quantum behaviour with cosmologica…
View article: Torsion Geometry in QED and QCD: A Unified ECT Framework
Torsion Geometry in QED and QCD: A Unified ECT Framework Open
Expansion–Compaction–Torsion (ECT) Framework for QED and QCDThe ECT framework provides a unifying geometric law for quantum interactions by linking expansion (QED photon scattering) and compaction (QCD quark confinement) through torsion re…
View article: The Processing-Rate Theory: A Scalar-Informational Extension of Proper Time and Strong-Field Dynamics
The Processing-Rate Theory: A Scalar-Informational Extension of Proper Time and Strong-Field Dynamics Open
This work develops the Processing-Rate Theory (PRT), a scalar-informational extension of general relativity in which physical proper time is governed by a local processing-rate field R(x). Matter evolves according to an effective temporal …
View article: Quantum Measurement and Macroscopic Definiteness in Amrita Field Theory: A Compression-Based Intermediate-Layer Model
Quantum Measurement and Macroscopic Definiteness in Amrita Field Theory: A Compression-Based Intermediate-Layer Model Open
This paper develops an intermediate-layer account of quantum measurement within the Amrita Field Theory (AFT) framework. Instead of postulating fundamental collapse or many parallel worlds, measurement is modeled as a multi-scale informati…
View article: The ACORN: The REAL Theory of Everything (Volume 2)
The ACORN: The REAL Theory of Everything (Volume 2) Open
How can one small equation lead to so much - in fact - EVERYTHING. "The ACORN" is a simple looking equation - but in 5D SpaceTime+ it contains, Newton, Einstein, Maxwell and from it we get Light Speed, Planck Constant, Fine Structure Const…
View article: Gravity as the Origin of Existence: From Physical Force to Ontological Principle
Gravity as the Origin of Existence: From Physical Force to Ontological Principle Open
This paper proposes a novel theoretical framework reconceptualizing gravity not as a fundamental force, but as a primordial substrate from which all other forces and physical phenomena emerge. Drawing on insights from string theory and loo…
View article: The ACORN: The REAL Theory of Everything (Volume 2)
The ACORN: The REAL Theory of Everything (Volume 2) Open
How can one small equation lead to so much - in fact - EVERYTHING. "The ACORN" is a simple looking equation - but in 5D SpaceTime+ it contains, Newton, Einstein, Maxwell and from it we get Light Speed, Planck Constant, Fine Structure Const…
View article: The Ontological Reconstruction of the Feynman Path Integral
The Ontological Reconstruction of the Feynman Path Integral Open
This paper presents a formal proof that the Feynman Path Integral formulation of Quantum Field Theory is not a fundamental postulate, but a derived consequence of the axiomatic system of Recursive Self-Relation (SDRIS C-2a1). I demonstrate…
View article: Dual-Aspect Quantum Theory: An Ontological Framework Unifying Physical Processes and Phenomenal Consciousness
Dual-Aspect Quantum Theory: An Ontological Framework Unifying Physical Processes and Phenomenal Consciousness Open
This preprint introduces Dual-Aspect Quantum Theory (DAQT), a framework proposing that the two fundamental dynamical modes of quantum mechanics possess intrinsic subjective aspects. The theory aims to unify phenomenology, evolutionary cons…
View article: Quantum AI in Speech Emotion Recognition
Quantum AI in Speech Emotion Recognition Open
We evaluate a hybrid quantum–classical pipeline for speech emotion recognition (SER) on a custom Afrikaans corpus using MFCC-based spectral features with pitch and energy variants, explicitly comparing three quantum approaches—a variationa…
View article: Time-Force Driven Causal Field Locking Hypothesis (時間力驅動與因果場域閉鎖理論-假說)
Time-Force Driven Causal Field Locking Hypothesis (時間力驅動與因果場域閉鎖理論-假說) Open
Abstract This hypothesis defines Time (T) as an external propulsive force originating from outside the universe (Time Force, T-Force), rather than a mere intrinsic dimension. The universe is conceptualized as a "Causal Fie…
View article: Numerical Artifacts of the Computational Universe: Detecting Planck-Scale Truncation Errors and Anisotropy in Physical Experiments
Numerical Artifacts of the Computational Universe: Detecting Planck-Scale Truncation Errors and Anisotropy in Physical Experiments Open
If the universe is a dynamical system realized by underlying discrete computational processes, then finite memory, finite clock frequency and finite numerical precision must leave extremely weak but in-principle detectable ``numerical arti…
View article: Gravitationally-Induced Photon Entanglement in an FLRW Cosmological Background
Gravitationally-Induced Photon Entanglement in an FLRW Cosmological Background Open
In order to detect the quantum nature of gravity, the quantum gravity induced entanglement of masses(QGEM) has been proposed both in flat and curved spacetime. In this paper we propose an analogous QGEM protocol using photons produced in a…
View article: Excited core-level dependence of entanglement between a photoelectron and an emitted X-ray photon in X-ray inner-shell excitation
Excited core-level dependence of entanglement between a photoelectron and an emitted X-ray photon in X-ray inner-shell excitation Open
We theoretically investigated how the quantum entanglement between the spin of the photoelectron and the polarization of the emitted X-ray photon depends on the excited core-level, using the 3$d\rightarrow\ $2$p$ and 3$d\rightarrow\ $3$p$ …