Delving into Causal Dynamical Triangulation: Unraveling the Discrete Nature of Spacetime in Quantum Gravity
<p>In the vast realms of theoretical physics, two fundamental theories have shaped our understanding of the universe: spacetime and quantum gravity. Spacetime, a concept introduced by Einstein's general relativity, provides a framework where the fabric of the universe is intertwined with the forces of gravity. On the other hand, quantum gravity seeks to unify the principles of quantum mechanics with the theory of general relativity, aiming to decipher the behavior of the universe at its most fundamental level.</p>
<p>However, the unification of quantum mechanics and general relativity has proven to be a formidable challenge. The two theories operate in distinct realms, with quantum mechanics governing the microscopic world of particles, while general relativity governs the macroscopic realm of gravity and cosmology. Bridging these theories and creating a comprehensive theory of quantum gravity remains an ongoing quest in the field of theoretical physics.</p>
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