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An Overview of the Development of Topological Vortex Theory (TVT)1.2 Relationship and Differences 1.2.1 Subordination: Topological vortices are one of the subjects studied in TVT, but TVT has a broader scope, encompassing mathematical modeling, physical mechanisms, and philosophical implications of vortices. 1.2.2 Theoretical Extensions: TVT not only describes the static topological properties of vortices (e.g., phase singularities) but also introduces...0 Commentaires 0 Parts 53 Vue 0 Aperçu
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An Overview of the Development of Topological Vortex Theory (TVT)2. The Key Developmental Stages of Topological Vortex Theory (TVT) The development of Topological Vortex Theory (TVT) can be traced back to the study of topological phase transitions in condensed matter physics during the 1970s, and it gradually evolved into an interdisciplinary theoretical framework in the 21st century. The following are its key developmental stages: 2.1 Theoretical...0 Commentaires 0 Parts 60 Vue 0 Aperçu
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An Overview of the Development of Topological Vortex Theory (TVT)2.3 Interdisciplinary Expansion: Proposal of TVT In the early 21st century, scholars such as Bao-hua ZHANG extended the concept of topological vortices to spacetime structures, proposing TVT. This theory posits that spacetime originates from a dynamic network of quantized vortices, with their interactions explaining the transition from microscopic turbulence to macroscopic linear flow. Through...0 Commentaires 0 Parts 55 Vue 0 Aperçu
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On the Feasibility of Monitoring Crustal Deformation Using a High-Precision Gyroscopes and Sundial Network Based on Topological Vortex Theory (TVT)Introduction Earthquake prediction remains one of the most challenging problems in geoscience. Traditional methods primarily rely on monitoring crustal physical parameters (such as crustal stress, geoelectricity, geomagnetism, groundwater levels). However, these parameters are often highly localized and susceptible to numerous interference factors, making it difficult to establish universal...0 Commentaires 0 Parts 24 Vue 0 Aperçu
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On the Feasibility of Monitoring Crustal Deformation Using a High-Precision Gyroscopes and Sundial Network Based on Topological Vortex Theory (TVT)I. Theoretical Basis and Physical Mechanisms 1.1 Topological Vortex Stress Field: The time-varying angle between the Earth's rotation axis and the Sun's rotation axis (e.g., nutation, precession) can, through angular momentum conservation and gravitational torque, form a vortex-like stress field within the Earth's interior, inducing minor crustal deformations. This deformation manifests as...0 Commentaires 0 Parts 18 Vue 0 Aperçu
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On the Feasibility of Monitoring Crustal Deformation Using a High-Precision Gyroscopes and Sundial Network Based on Topological Vortex Theory (TVT)III. Challenges and Validation Requirements 3.1 Data Noise Filtering: Crustal deformation signals might be masked by interference such as atmospheric disturbances and temperature fluctuations. Extracting the characteristic signatures of topological vortices will likely require advanced data analysis techniques like machine learning. 3.2 Interdisciplinary Validation: Validation of the causal...0 Commentaires 0 Parts 24 Vue 0 Aperçu
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The Simplicity and Explanatory Power of Topological Vortex Theory (TVT)I. Introduction Topological Vortex Theory (TVT) profoundly describes the connection between time and space by conceptualizing space as an ideal fluid, introducing the concept of topological phase transitions, and focusing on the topological properties and spatial structure of spacetime vortices. The mathematical self-consistency of TVT stems from its foundation in the axiomatic system of...0 Commentaires 0 Parts 165 Vue 0 Aperçu
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The Simplicity and Explanatory Power of Topological Vortex Theory (TVT)3.Dimensionality Reduction for Explaining Complex Phenomena TVT unifies vortex phenomena from galactic scales to quantum scales as macroscopic manifestations of the same topological mechanism. For instance, gravitational fields correspond to vortex density distributions, and geometric tension is equivalent to the energy-momentum tensor in Einstein's field equations. This cross-scale...0 Commentaires 0 Parts 158 Vue 0 Aperçu
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The Simplicity and Explanatory Power of Topological Vortex Theory (TVT)3.Breakthrough Regarding the Scale Gap TVT reveals the essential differences between different physical phenomena through scale laws: galactic vortices are governed by continuum mechanics, while quantum vortices are constrained by topological quantum field theory. This layered explanatory capability allows it to describe large-scale energy transfer in Kelvin waves while also addressing the...0 Commentaires 0 Parts 155 Vue 0 Aperçu
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Topological Vortex Space-Time Ontology (TVSTO)Topological Vortex Space-Time Ontology (TVSTO) Bao-hua ZHANG I. Introduction Topological Vortex Space-Time Ontology (TVSTO) is a revolutionary theoretical framework for spacetime. Its core tenets can be summarized across the following three levels: 1.1 Reconstruction of Spacetime Essence: TVSTO regards spacetime not as traditional Euclidean space, but as a dynamic vortex network formed...0 Commentaires 0 Parts 177 Vue 0 Aperçu
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Topological Vortex Space-Time Ontology (TVSTO)1.3 Explanation of Modern Physical Problems: TVSTO not only successfully describes classical physical phenomena but also provides a self-consistent theoretical framework for frontier issues like dark energy and macroscopic quantum phenomena. Its perspective of symmetry-dominated natural laws further challenges the paradigm of traditional particle physics. II. Theoretical Innovativeness of...0 Commentaires 0 Parts 184 Vue 0 Aperçu
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