Understanding the Physical World Through Computation
I have always been curious about how the physical world works. As a child, I was fascinated by machines, structures, and the hidden mathematics behind motion and forces. Over time, that curiosity evolved into a deep interest in computational mechanics, scientific computing, and simulations.
Today, I work on developing computational methods for problems involving fracture mechanics, topology optimization, batteries, and multi-physics systems. What excites me most is the ability to transform mathematical equations into simulations that can predict real engineering behavior.
For me, computational science is not just about coding or solving equations. It is a creative process where mathematics, physics, programming, and engineering come together to answer difficult questions. I enjoy building algorithms and tools that make simulations faster, smarter, and more accessible for real-world applications.