Visualizing 2D Quantum Field Theory: Geometry and Informatics of Mobilevision
D. Juriev (Yur'ev; Mathematical Division, Research Institute for, System Studies of Russian Academy of Sciences, Moscow, Russia)
TL;DR
This paper explores geometric and informational perspectives on 2D quantum field theory through the novel visualization method called Mobilevision, revealing new interpretative frameworks and virtual realities.
Contribution
It introduces Mobilevision as a visualization tool for 2D quantum field theory, providing new geometric and informatic interpretations and frameworks.
Findings
Revealed interpretational geometry and virtual realities in 2D QFT
Developed concepts of AVR-photodosy and IAVR-teleaesthesy for information transmission
Organized MV cyberspace and described non-Alexandrian geometry
Abstract
This article is devoted to some interesting geometric and informatic interpretations of peculiarities of 2D quantum field theory, which become re- vealed after its visualization. Contents. I. Geometry of Mobilevision: 1.1. Interpretational geometry and anomalous virtual realities; 1.2. Quantum projective field theory and Mobilevision; 1.3. Quantum conformal and q_R conformal field theories; quantum-field analogs of Euler-Arnold top; 1.4. Organizing MV cyberspace; 1.5. Non-Alexandrian geometry of Mobilevision. II. Informatics of Mobilevision: 2.1. Information transmission via anomalous virtual realities: AVR-photodosy; 2.2. Information transmission via intentional anomalous virtual realities: IAVR-teleaesthesy.
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Taxonomy
Topicsadvanced mathematical theories · Opinion Dynamics and Social Influence · Algebraic structures and combinatorial models