A beautiful highly detailed futuristic (Start with a three-dimensional sphere, which is the simplest and most straightforward example of a simply connected, closed three-dimensional manifold. Show how the sphere can be deformed into other shapes through a process called Ricci flow. This process involves stretching and shrinking different parts of the sphere over time, leading to a deformation of its geometry. Demonstrate how Ricci flow can be applied to any simply connected, closed three-dimensional manifold, in order to transform it into a three-dimensional sphere. This requires controlling the deformation so that the manifold does not become topologically equivalent to any other shape. Highlight the key steps of Perelman's proof, including his use of Ricci flow and his demonstration that any three-dimensional manifold satisfying certain conditions will eventually become topologically equivalent to a sphere. Emphasize the importance of Perelman's proof, which has far-reaching implications for our understanding of topology and geometry, and which represents a major achievement in mathematics. In the image, it could be helpful to show different stages of the Ricci flow process, as well as the final result of the process, which is a three-dimensional sphere. It would also be helpful to clearly label the key steps of Perelman's proof, so that the viewer can understand the significance of each step:1.3) by thomas kinkade and Paul Kelpe, science fiction, dystopian, hard light, (centered composition:1.2), sci-fi, featured on artstation, artstationhq, 70mm photo, 4k, 8k, octane render, aesthetic, exciting, cinematic, moody | Sci-fi