Super God-Level Top Student-Chapter 1177 - 465: When the Music Ends, the People Remain (Part 4)
"Thank you to my colleagues, my teachers, and other friends for attending this World Mathematicians Conference. I appreciate the invitation from the organizing committee, which allows me to share my research and insights with you all in this setting. Today, my report focuses mainly on the evolution of future mathematics."
The sentence elicited thunderous applause from the audience.
Whether or not they accept it, at this moment, at least up until now, no one can deny the achievements Qiao Ze has made in the mathematical domain, not a single person.
Qiao Ze did not wait for the applause to completely die down, instead he continued with his speech self-assuredly: "The development of mathematics has always been a vital driving force for the advancement of human civilization. In the past few years, we have witnessed many significant breakthroughs and innovations in the field of mathematics.
It is precisely because of this that we now stand on the threshold of a new mathematical era, where future mathematics will far surpass the classic frameworks we are familiar with, entering a multidimensional mathematical universe constructed from cross-disciplinary fields."
The audience fell completely silent, and some people even started taking notes.
"For example, superspiral algebra has already shown immense potential in the research of supersymmetry. This algebraic structure not only resolves the longstanding issue of mass gaps, but has also become a key concept in Quantum Field Theory.
This algebraic structure provides the tools to describe the mutual transformations between fermions and bosons, opening the door to mathematical descriptions of high-dimensional spaces. In the future, as high-energy physics continues to advance, superspiral algebra will become the core language for understanding high-dimensional universes and their physical phenomena.
Its inherent symmetry not only encompasses transformations of space and time but also profoundly affects our understanding of fundamental particles and their interactions. Coupled with superspiral algebra is the rise of transcendental geometry.
Traditional geometry is no longer sufficient to describe complex high-dimensional spaces, whereas transcendental geometry offers a new perspective. It not only studies classical geometric shapes and spaces but also delves into algebraic geometry, non-commutative geometry, and mirror symmetry—advanced concepts.
In this new mathematical realm, geometric structures are redefined as abstract concepts transcending physical space, even applicable to describing complex data spaces and the consciousness structures of artificial intelligence systems."
In just a few words, Qiao Ze roughly introduced his achievements in the first year at Xilin University of Technology.
This is not the focus of his opening report today, but it is an indispensable segment.
When he first introduced Qiao’s Algebraic Geometry, he was still a naive young boy, unaware of the heights and depths of the world.
"However, these two innovative mathematical systems alone cannot entirely solve many problems we are currently facing, so I have proposed the concept of mathematical interweaving. The inspiration for interweaving came from a wedding dress..."
This sentence successfully caused a stir in the audience.
Though mathematicians can indeed draw inspiration from strange things, a wedding dress?
Su Mucheng below the stage laughed happily. 𝓯𝙧𝓮𝓮𝒘𝓮𝙗𝙣𝒐𝒗𝒆𝓵.𝓬𝓸𝒎
This sentence was something she insisted Qiao Ze include.
She plans to publicly announce it and then find an opportunity to showcase the details of that wedding dress...
Just look, at the World Mathematicians Conference, a simple sentence followed by subsequent actions can endow that wedding dress with a different soul.
"Mathematical interweaving presents a new concept of deep-level correlations between mathematical theories. I also believe it will evolve into a main methodology for studying intrinsic relationships between different mathematical fields. This interweaving manifests not only in transcendental geometry and algebraic topology but also intersects with quantum information theory and topological Quantum Field Theory.
For mathematicians interested in interdisciplinary research, I strongly recommend looking for more interweaving phenomena according to relevant theorems, posing questions, and exploring how they can shape the mathematical structures of the future.
In this context, the proposal of Q Theory provides mathematics with an integrated framework. Q Theory combines topological Quantum Field Theory, quantum information theory, and modular forms, forming a new mathematical language.
Through Q Theory, we can delve deeper into studying topological invariants and modular functions, and better understand the structure of quantum state space, thereby building new quantum computing models and encryption algorithms.
In this way, Q Theory is not just a theoretical tool but a guide to exploring new territories in future mathematics.
In summary, future mathematics will be characterized by the integration of multidimensionality and supersymmetry, deep interweaving across domains, and the geometrization of quantum information. Multidimensionality and supersymmetry mean that mathematics will no longer be limited to the dimensions we know but will extend to higher dimensions.
It may even involve new concepts like "Q-dimensions." Cross-domain interweaving suggests that the boundaries between different mathematical branches will blur, and mathematicians will study how these branches interweave to form more complex mathematical structures.
The geometrization of quantum information indicates that future mathematics will be devoted to revealing the geometric properties of quantum state spaces and applying them in information processing, quantum computing, and other cutting-edge fields.
In summary, I believe the mathematics of the future will be not just the study of numbers and forms; it will evolve into a science exploring the deep structures of the universe, information, and consciousness.
Similarly, future mathematics will no longer be a singular discipline but will become a new way of thinking permeating the multidimensional universe and complex systems. Next, I will spend forty minutes focusing on explaining the evidence behind these judgments."
