 So there you have it, a biology lesson, a physics lesson, history lesson, all of these things packed into one hour. So we probably have a lot more questions that we can handle, but what I'd like to point out is that we have a session coming up at 2.30, called Conversations, where it's going to be back in this room, and we're going to have all the folks here there so we can actually spend an hour with them going through all the insights and questions you might have. But we do have just a few minutes right now to take any questions that you might have in mind that we can take. Hi, I'm Alan Sanstead from Berkeley Lab. I first want to say that you all are really impressive and inspiring. Kudos to you for your vision, your drive and the contributions you're making. So I would like to pose a hypothetical. Suppose any of you might want to take a shot at this. Suppose that your research succeeds beyond your wildest dreams. Not only you get the science done, but then whatever the technology or technological application done, and it's built. And not only have you built a prototype, but you've built, you can build these things, whatever they are, at what you consider a commercial price point. So it's all happening on that end. Now what happens? We want to take a first shot of what happens if you guys are actually successful at commercializing. Okay, I'll start. So we highlighted in that talk three things that are just not really possible to do right now with existing technologies. And we think that those will be our niches, basically things that are below about the one kilowatt or even 10 kilowatts where your generator is just really bad. But then as we start to move off, if we're successful, our price point that we've been able to price out through some techno-economic modeling implies that basically if we're successful, you won't buy a Honda generator anymore. You'll be buying a kilowatt spark reactor and then a 10 kilowatt spark reactor and then all the way up to match the needs of not just individuals, but micro grids and so on and so forth. So we really believe that what we're doing will just be the way that when you need on-demand power in a very lightweight package, you'll look to us. I think the price of lawn clippings will grow up. People will be raking their lawn and not just leaving it to methane. They'll be collecting it so that they can turn it into something like, candy-flavored antibiotic for their kid's strep throat. I would say we would have a lot less headaches at the workplace. For me, that's the first start is understanding what sort of health implications there actually are and what we can do at a very small scale so that when we do become a larger scale sort of corporation, we know exactly what impact we're going to have on ourselves. And then we can start creating an environment that is healthy for not just us, but other animals as well. I think to start we have a 10x reduction in the carbon intensity of building heating and cooling, which is like a behind the scenes, but important goal if we want the next six building people to have normal comfort. But then after that, the next thing I'm excited about is nobody really likes their air conditioner. No one's really that happy with how thermally comfortable they are in a building. They're just suffering less. And so I want to think about how we can design systems that actually make people more comfortable and happy. So I'd say if we were successful making tandem solar panels, then the first thing to do, of course, is to upgrade all of the existing capacity from how it exists today to tandem technology. But ultimately to reach the future that we want to reach, then the next question is figuring out how to get the entire industry to the terawatt scale rather than hundreds of kilowatts. And so that means massive increases in manufacturing capacity. It's not clear exactly how we do that in a cheap and efficient manner. So I think if we're successful, we'll no longer have to think and worry about how we're going to get from point A to point B. I think we'll actually reach mass market electric vehicles and renewable energy and not have to worry about anything bad happening. I think that's the future that I see. So I think just in the interest of time in getting into lunch, what I'd do is I'll take this conversation offline with the folks if possible. But if you can, just take a moment just to thank them again for their time and their vision and for joining us here today. And I just want to point out again my gratitude to Matt Price from Cyclotron Road for actually making the introduction and for having the folks here. And I think you'd all agree that irrespective of where you live in the world, I think we have a bright future ahead of us in terms of some of the technologies that are emerging to solve some of the macro problems around the future of energy. Hope you enjoy the rest of your day. And again, please feel free to come up to speak with our speakers. Thank you.