 I'm Byron Abraham Daniel. I'm in the Mellon College of Science in the Physics Department. I'm from Atlanta, Georgia, the good old ATL. My preparation process took two months, so I started back in December and if you're wondering why this took two months, there are a lot of things I did, so I scripted this, I made examples, I ran through examples of my family, there are times like I have so many drafts of my presentation just kind of like on the cutting room floor essentially. There's one funny story that like during Christmas I just walked up to my dad said, hey dad, can I practice something with you? And he's like, sure, and I just went through my entire spill and was just getting feedback from him about it. So, I was mostly just, it was a pretty long process. Okay, I will tell you the fact that got me into Nutrino Research to begin with. So, I was talking with ATA in my undergrad about neutrinos and she said, oh wait, let me show you something really cool, then she just did this. And he said, oh, in that one second a hundred billion neutrinos just went through my finger and then I just said like, wait, what? And she said, yes, a hundred billion, isn't that crazy? And I just said, yes, yes it is, like, where do I learn about more? And he said, oh, why don't you come to our department, we'd be department talks when we learn more about neutrinos. Great hook. What I really like doing research at Carnegie Mellon is it's like how much, like, I really like it with this, how much emphasis they put on just understanding just all the physics and, like, rotations. So, for example, although I focus on neutrino physics, as part of my graduate process, they actually had me learn other labs too, so I could learn about other particles with size neutrinos. It's just important to make sure that we as graduate students have a great grasp of physics as a whole in addition to just our own specific subfields.