Dr. Max Fomitchev-Zamilov

They all look to me like they were exposed to some extreme heat. And of course, you know, we know extreme heat happens in nuclear reactors, but it also happens in other places. I'm not saying it's of nuclear origin, but if it was of nuclear origin, you would see plenty of evidence of it on the surface.

And this is something I wasn't aware of until like two weeks ago when I came across this paper and I said, you know, Degner, but that's, you know, interesting subject to research. And that's, you know, what you can use the electron microscope for. And maybe, you know, some other techniques, but I need to do a lot of learning, you know, because this is new.

And this is something I wasn't aware of until like two weeks ago when I came across this paper and I said, you know, Degner, but that's, you know, interesting subject to research. And that's, you know, what you can use the electron microscope for. And maybe, you know, some other techniques, but I need to do a lot of learning, you know, because this is new.

And this is something I wasn't aware of until like two weeks ago when I came across this paper and I said, you know, Degner, but that's, you know, interesting subject to research. And that's, you know, what you can use the electron microscope for. And maybe, you know, some other techniques, but I need to do a lot of learning, you know, because this is new.

But, you know, that's what makes it exciting. Because, you know, who knows? It would be interesting to be able to discover new technology that was lost in the past, or just having, you know, the quest for this new technology to advance our knowledge. Because I think that's what happens when you follow your curiosity.

But, you know, that's what makes it exciting. Because, you know, who knows? It would be interesting to be able to discover new technology that was lost in the past, or just having, you know, the quest for this new technology to advance our knowledge. Because I think that's what happens when you follow your curiosity.

But, you know, that's what makes it exciting. Because, you know, who knows? It would be interesting to be able to discover new technology that was lost in the past, or just having, you know, the quest for this new technology to advance our knowledge. Because I think that's what happens when you follow your curiosity.

You never know what you learn in the moment, you know, how it forms a whole picture, you know, later in the process in some, you know, mysterious way. And I guess that's what makes it exciting.

You never know what you learn in the moment, you know, how it forms a whole picture, you know, later in the process in some, you know, mysterious way. And I guess that's what makes it exciting.

You never know what you learn in the moment, you know, how it forms a whole picture, you know, later in the process in some, you know, mysterious way. And I guess that's what makes it exciting.

I see where you're going with this.

I see where you're going with this.

I see where you're going with this.

It could be a dating technique.

It could be a dating technique.

It could be a dating technique.

Or assist in dating.

Or assist in dating.

Or assist in dating.

Because supernova events are recorded in... As I said, there is a bunch of scientific literature on the topic, and it's not a controversial topic. We know that cosmic events occur, and we know they change the radiocarbon balance in atmosphere. I didn't know that the rocks are impacted. That was new information. But if the rocks are impacted, then yeah.