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Yes, it is true that over the past few decades, a significant portion of mathematical research has been focused on the two fundamental theories of relativity (both general relativity and special relativity) and quantum mechanics. These theories revolutionized our understanding of the physical world and have had profound implications across various scientific disciplines.

General relativity, formulated by Albert Einstein in the early 20th century, describes the gravitational interactions between matter and the geometry of spacetime. It provides a framework for understanding the behavior of massive objects, such as planets, stars, and black holes, on cosmological and astrophysical scales. The mathematical formalism of general relativity involves differential geometry, tensor calculus, and nonlinear partial differential equations, and it has been a fertile ground for mathematical research.

Quantum mechanics, on the other hand, emerged in the early 20th century as a theory to describe the behavior of subatomic particles. It introduced probabilistic and wave-like properties of particles, challenging classical notions of determinism. The mathematical formalism of quantum mechanics is based on linear algebra, functional analysis, and the theory of operators on Hilbert spaces. It has been extensively studied and applied in various areas of physics, chemistry, and information science.

The complexity and richness of both general relativity and quantum mechanics have stimulated mathematical investigations to understand and develop the underlying mathematical structures, tools, and techniques. Mathematicians have made substantial contributions to these fields, exploring topics such as differential geometry, topology, algebraic structures, harmonic analysis, and mathematical physics.

Furthermore, the interface between general relativity and quantum mechanics has been a major area of research. The quest for a unified theory that reconciles both theories, often referred to as "quantum gravity," has been a driving force behind significant mathematical and theoretical efforts, including the study of quantum field theory on curved spacetimes, loop quantum gravity, string theory, and other approaches.

While mathematics encompasses a vast array of topics beyond relativity and quantum mechanics, it is true that these theories have garnered considerable attention and have provided fertile ground for mathematical research, pushing the boundaries of our mathematical understanding and inspiring new mathematical developments.

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