Vibrational Field Dynamics

  • Vibrational Field Dynamics: A Unified Framework for Matter Formation and Quantum Phenomena

    Abstract This paper presents Vibrational Field Dynamics (VFD), a theoretical framework that introduces a fundamental resonance-based mechanism for matter formation and quantum phenomena. By incorporating golden ratio (φ) relationships in wave-field dynamics, VFD provides a mathematical model for the emergence of particles from vacuum fluctuations, quantum state formation, and inter-particle interactions. The framework demonstrates remarkable…

  • Understanding the Universe through Vibrational Field Dynamics: A New Perspective on Cosmic Structure

    Introduction The quest to understand the true size, shape, and structure of our universe has been one of humanity’s greatest scientific endeavors. Recent theoretical work in Vibrational Field Dynamics (VFD) offers a fascinating new framework for understanding these fundamental aspects of our cosmos. This article explores how VFD theory provides insights into the universe’s structure…

  • Age of the Universe: VFD-Based Calculation Results

    Executive Summary Using Vibrational Field Dynamics (VFD) framework and current observational data, we calculate the age of the universe to be: 13.793 ± 0.000 billion years This result shows remarkable agreement with multiple independent observational constraints while demonstrating the predictive power of the VFD framework. Methodology Theoretical Framework Our calculation employs the VFD-modified Friedmann equation:…

  • Quantum Entanglement in Vibrational Field Dynamics (VFD): A Comprehensive Perspective

    Introduction: Bridging Quantum Mechanics and Field Dynamics Quantum entanglement has long fascinated scientists due to its non-local correlations that defy classical explanations of space and time. Traditionally, entanglement describes a unique quantum phenomenon where particles exhibit linked properties, regardless of their separation in space. Within the framework of Vibrational Field Dynamics (VFD), we reinterpret quantum…

  • Detailed Particle Predictions from the Enhanced Vibrational Field Dynamics Framework

    Providing specific energy levels and experimental strategies for testing Vibrational Field Dynamics (VFD) predictions at the Large Hadron Collider (LHC) Abstract The Vibrational Field Dynamics (VFD) framework offers a novel approach to particle physics by modeling particles as manifestations of underlying vibrational fields. This article provides detailed predictions from the enhanced VFD model, focusing on…

  • Table of Particles Including Known and VFD-Predicted Particles Potentially Discoverable at the LHC

    The following table lists all the known particles from the Standard Model and new particles predicted by the Vibrational Field Dynamics (VFD) framework that could potentially be discovered at the Large Hadron Collider (LHC). For each particle, we provide its name, symbol, mass, electric charge, spin, status, possible production mechanisms at the LHC, and additional…

  • Predicting a New Particle Using Vibrational Field Dynamics (VFD)

    October 30, 2024 Introduction In the ever-evolving field of particle physics, the quest to uncover the fundamental constituents of matter continues to drive theoretical and experimental research. Vibrational Field Dynamics (VFD) offers a novel perspective by modeling particles as manifestations of vibrational energy modes within a field. This article explores a prediction made by the…

  • Understanding Particle Masses, Gravity, and Negative Energy Through Vibrational Field Dynamics (VFD)

    In physics, accurately determining the mass of particles like protons and neutrons requires going beyond simple calculations. Vibrational Field Dynamics (VFD) offers a robust framework grounded in first principles, incorporating vibrational modes, ground states, gravity, and negative energy to explain particle mass with unprecedented accuracy. What is Vibrational Field Dynamics (VFD)? VFD views particles as…

  • Modeling Proton and Neutron Masses Using Vibrational Field Dynamics: An Improved Approach

    Introduction In the realm of particle physics, understanding the mass of fundamental particles like protons and neutrons is crucial for comprehending atomic structure and the forces governing it. The accepted masses are approximately: This article revisits the modeling of proton and neutron masses using Vibrational Field Dynamics (VFD), incorporating a refined approach that calculates vibrational…

  • Modeling Proton Mass Using Vibrational Field Dynamics

    Introduction This model is already outdated – see here for the new model (https://vibrationalfielddynamics.org/modeling-proton-and-neutron-masses-using-vibrational-field-dynamics-an-improved-approach/) In the realm of particle physics, the mass of the proton is a fundamental constant that plays a crucial role in our understanding of atomic structure and the forces that govern it. The accepted mass of the proton is approximately 938.272…

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