A Gentle Introduction to Algebraic Operads

Abstract

This text, based on the author's Bachelor's thesis, introduces the theory of Algebraic Operads, a mathematical formalism that provides a unifying framework for modern algebra. We demonstrate how the fundamental theories of associative, commutative, and Lie algebras can be fully recovered as categories of representations of three archetypal operads: As, Com and Lie -- the so-called 'three graces' of algebra. Following a deductive and self-contained approach, the notion of an operad is initially presented in its classical form, as a single-object multicategory. Subsequently, alternative definitions -- namely, the partial and functorial definitions -- are provided. This framework allows for the extension of classical algebraic notions, such as free objects and quotients, to the operadic context, thereby enabling operads to be formally presented through generators and relations. The central result of this work is the rigorous proof of the correspondence between operads and algebras. We establish isomorphisms of categories between the algebras over the operads As, Com and Lie, and their respective classical counterparts. This thesis thus highlights how the theory of operads offers a higher-level language for algebra, encoding entire algebraic theories within single mathematical objects. This formalism not only unifies known structures but also lays the foundation for advanced concepts, such as 'algebras up to homotopy,' with applications in fields like theoretical physics and geometry.