And for me, you know, as I said, this has been a 50 year kind of endeavor to achieve ignition by like inertial fusion, to achieve a burning plasma and plasma that can produce more energy than you put into it, like for the first time on Earth. So there's been, especially in the US, there's been a huge amount of government investment in national labs, and in these kinds of facilities, like I was saying, in the codes, in the underlying science, in the underlying technology, particularly for laser-based inertial fusion, which is what we're pursuing. So for me, I think when we actually kind of hit that milestone of ignition two years ago, then, you know, then all the attention was okay, we've done it once. Now, you need to do it repeatedly. Now, the discussion was all about fusion energy, and how to produce fusion energy, you know, to address climate change. And so for me, you know, then I was looking at how you do that within the national lab, within the government, kind of, you know, infrastructure. And it takes a long time, you know, you're writing proposals, you're developing the community, you're trying to get government funding, because this is all government funded. And the thing, it takes a long time to do that in government, then with private industry I could for me, I could see that, you could, the benefits of trying to pursue a commercialization strategy. In the private industry side, you can spend money fast, you can make decisions fast, you can tolerate much more risk in the private sector than you can in the public sector. So you can move... so I kind of became convinced that you could actually move several times faster, and you could do what might take, you know, 30 or 40 years in the public sector, you could do it in 10 or 12 years in the private sector.