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One of the great advantages of being a physicist in Texas is that you are genuinely surrounded by incredible physicists across the Houston–Austin–Dallas–College Station area. The summers are hot, of course, but what better way to spend an afternoon than talking to a fellow physicist?
Last time, we were at Rice University, and this time we are at Texas A&M University to talk to Professor Shenglong Xu.
In today’s episode, we talk to Professor Shenglong Xu. He is a theoretical physicist working on quantum many-body dynamics, quantum chaos, quantum information, and quantum simulation. His research explores how large collections of quantum particles evolve, scramble information, generate entanglement, and sometimes behave in surprising ways that challenge our usual intuition.
We also talk about the growing role of AI in science, and how new computational tools might help physicists understand systems that are far too complex to solve by hand. If you’re interested in chaos, complexity, entanglement, and the future of quantum physics, you’re in for a treat. So, let’s get into it.
Shenglong's Website and Github
- https://slxuphys.github.io/
-https://github.com/slxuphys
By The KnowmadsOne of the great advantages of being a physicist in Texas is that you are genuinely surrounded by incredible physicists across the Houston–Austin–Dallas–College Station area. The summers are hot, of course, but what better way to spend an afternoon than talking to a fellow physicist?
Last time, we were at Rice University, and this time we are at Texas A&M University to talk to Professor Shenglong Xu.
In today’s episode, we talk to Professor Shenglong Xu. He is a theoretical physicist working on quantum many-body dynamics, quantum chaos, quantum information, and quantum simulation. His research explores how large collections of quantum particles evolve, scramble information, generate entanglement, and sometimes behave in surprising ways that challenge our usual intuition.
We also talk about the growing role of AI in science, and how new computational tools might help physicists understand systems that are far too complex to solve by hand. If you’re interested in chaos, complexity, entanglement, and the future of quantum physics, you’re in for a treat. So, let’s get into it.
Shenglong's Website and Github
- https://slxuphys.github.io/
-https://github.com/slxuphys