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The Disciplinary Reconstruction of Replacing Quantum Materials with Topological Materials Based on Topological Vortex Theory (2)2. Self-Organization and Interaction of Topological Vortices and Anti-vortices 2.1 Physical Significance of Vortex-Anti-vortex Pairs In superconductors, superfluids, and magnetic materials, the pair creation and annihilation of vortices and anti-vortices is a key mechanism for topological phase transitions: Superconducting Vortex: Magnetic field penetration into a superconductor forms...0 コメント 0 シェア 154 閲覧数 0 レビュー
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The Disciplinary Reconstruction of Replacing Quantum Materials with Topological Materials Based on Topological Vortex Theory (3)3. Disciplinary Advantages of Replacing Quantum Materials with Topological Materials 3.1 Avoiding Pseudoscientific Risks The misuse of the term "quantum" can lead to unscientific explanations (e.g., "quantum fluctuation speed reading," "quantum health preservation"). Topological Materials, based on mathematical rigor, can effectively circumvent such issues. 3.2 Promoting Interdisciplinary...0 コメント 0 シェア 163 閲覧数 0 レビュー
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The Disciplinary Reconstruction of Replacing Quantum Materials with Topological Materials Based on Topological Vortex Theory (4)4. Conclusion and Outlook The concept of "Quantum Materials," due to its ambiguity, may hinder scientific progress. In contrast, Topological Materials, based on a rigorous mathematical framework—particularly Topological Vortex Theory (TVT) —provide a clearer and more reliable theoretical tool for matter research. Future research should: Unify Terminology: Replace "Quantum...0 コメント 0 シェア 167 閲覧数 0 レビュー
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Fractal and Evolution of Absolute SpaceAccording to modern physics and mathematical topology theory, absolute space (characterized by non-viscosity, uniform incompressibility, and isotropy) can undergo a topological phase transition to transform into dynamic relative space or spacetime manifolds. This process involves the following key mechanisms: 1. Mathematical Characteristics of Absolute Space In Newtonian mechanics,...1 コメント 1 シェア 96 閲覧数 0 レビュー
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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 コメント 0 シェア 386 閲覧数 0 レビュー
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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 コメント 0 シェア 394 閲覧数 0 レビュー
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Topological Vortex Space-Time Ontology (TVSTO)2.2 Breakthroughs in Physical Interpretation: 2.2.1 Dark Energy: The theory proposes that the universe's accelerated expansion stems from the dynamic evolution of the topological structure of vortices in the background space, with its repulsive effect generated by a geometric repulsion mechanism between vortices. 2.2.2 Unification of Quantum Gravity: TVSTO naturally introduces a geometric...0 コメント 0 シェア 424 閲覧数 0 レビュー
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Topological Vortex Space-Time Ontology (TVSTO)III. Mathematical Framework of TVSTO The mathematical framework of TVSTO is based on topological fluid dynamics, and its core equations and models can be summarized into the following key parts: 3.1 Vortex Dynamics Equation: Uses a modified form of the generalized Navier-Stokes equation to describe the generation and evolution of topological vortices in an ideal fluid: ∂v/∂t +...0 コメント 0 シェア 420 閲覧数 0 レビュー
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Topological Vortex Space-Time Ontology (TVSTO)3.3 Symmetry Transition Theory: Proposes higher-order symmetry groups G_n to describe the vortex self-organization process. System complexity is achieved through transitions in the order n of the symmetry group, rather than through traditional symmetry breaking. For example, the emergence of a superfluid vortex corresponds to a symmetry transition from G₂ to G₄. These mathematical tools,...0 コメント 0 シェア 419 閲覧数 0 レビュー
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Topological Vortex Space-Time Ontology (TVSTO)4.2 Experimental Verification: 4.2.1 Observation of Optical Skyrmions: The topological structures of optical vortices observed experimentally (e.g., vortex phase singularities) highly coincide with the geometric characteristics of the vortex network predicted by TVSTO. Measurements of their winding numbers support the theory's non-local correlation model. 4.2.2 Superfluid Vortex Experiments:...0 コメント 0 シェア 434 閲覧数 0 レビュー
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Topological Vortex Space-Time Ontology (TVSTO)V. Conclusion By redefining the nature of spacetime, TVSTO provides a theoretical framework for modern physics that combines innovativeness with explanatory power. Its core contributions lie in: 5.1 Paradigm Innovation: Replacing traditional particle or field-based models with topological fluid dynamics, it treats spacetime as a dynamic vortex network, unifying the geometric descriptions of...0 コメント 0 シェア 416 閲覧数 0 レビュー
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