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Jornal de Teoria Generalizada de Mentiras e Aplicações

Volume 18, Emitir 2 (2024)

Mini revisão

Lie Superalgebras Algebraic Structures in Physics and Mathematics

Mareike Fischer*

Lie Superalgebras, an extension of the classical Lie algebra framework, represent a sophisticated mathematical structure with profound implications in both physics and mathematics. These algebraic structures incorporate the principles of "super symmetry," offering a powerful tool for describing the symmetries inherent in various physical systems and mathematical objects. In this article, we explore the foundational concepts, structural properties, and diverse applications of Lie Superalgebras.

Mini revisão

Latin Squares Algebraic Structures and Applications

Mareike Fischer*

Latin squares are fascinating algebraic structures that have found applications across various fields including combinatorics, cryptography, experimental design, and even Sudoku puzzles. In this article, we will delve into the depths of Latin squares, exploring their definition, properties, construction methods, and diverse applications. One fundamental property of Latin squares is that they are closed under row and column permutations. That is, if we permute the rows or columns of a Latin square, the resulting array is still a Latin square. This property forms the basis for many constructions and manipulations of Latin squares.

Mini revisão

Homological and Homotopical Algebra Bridging the Gap

Matt Noble*

Homological and homotopical algebra are two powerful branches of mathematics with deep connections and applications across various fields, including algebraic topology, algebraic geometry, and mathematical physics. While they originate from distinct mathematical backgrounds, they share a common goal of studying algebraic structures through the lens of algebraic topology and category theory. In this article, we explore the fundamentals of homological and homotopical algebra, highlighting their similarities, differences, and the bridges that connect them.

Mini revisão

Harmonic Analysis on Symmetric Spaces and Beyond

Zhu Zhang*

Harmonic analysis is a field of mathematics that studies the properties and behavior of functions on topological groups, particularly focusing on the decomposition of functions into simpler components. This field has found numerous applications in various branches of mathematics, physics, and engineering. One particularly rich area of study within harmonic analysis is the analysis of functions on symmetric spaces. Symmetric spaces are spaces that exhibit certain symmetry under a group of transformations, and their study involves a deep interplay between geometry, group theory, and analysis.

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