I don't believe your are strobing an electron my friend. It appears you're strobing an atomic bond. Or perhaps watching an ionization.
To strobe an electron, we have to get it alone. We don't want it bonded to anything. And we have to have it sit still. We do not want it changing energy levels. The easiest way to freeze an electron, is with a high surface charge. Not magnetic bottles. We want to strobe the rotation of the charge, not the movement thru space. That's the only way to see the structure of it.
The charge needs to be frozen, to be able to strobe it at the correct angle. If you think an electron is small now, if you look at it from the side, it would be many thousands of times smaller.
The strobe will have to be aligned with the charge. And the strobe F will have to be at least the charge rotational F. But multiples of that F would give us a beat frequency, possibly in the visual range. We need to be able to VFO these frequencies, so as to pick a non absorbent beat frequency. To ensure the charge does not change energy.
We need variable yoctosecond pulse EM durations. And even higher to see protons.
Faster switches. And there is hope. We are starting to get some fast switching with meta-materials. We can now, almost generate any F up to and a little above light. When we can do that, with up to mid gamma, we will image many things.
We will have EM spectrum catalogs on every substance. And real tricorders.
To strobe an electron, we have to get it alone. We don't want it bonded to anything. And we have to have it sit still. We do not want it changing energy levels. The easiest way to freeze an electron, is with a high surface charge. Not magnetic bottles. We want to strobe the rotation of the charge, not the movement thru space. That's the only way to see the structure of it.
The charge needs to be frozen, to be able to strobe it at the correct angle. If you think an electron is small now, if you look at it from the side, it would be many thousands of times smaller.
The strobe will have to be aligned with the charge. And the strobe F will have to be at least the charge rotational F. But multiples of that F would give us a beat frequency, possibly in the visual range. We need to be able to VFO these frequencies, so as to pick a non absorbent beat frequency. To ensure the charge does not change energy.
We need variable yoctosecond pulse EM durations. And even higher to see protons.
Faster switches. And there is hope. We are starting to get some fast switching with meta-materials. We can now, almost generate any F up to and a little above light. When we can do that, with up to mid gamma, we will image many things.
We will have EM spectrum catalogs on every substance. And real tricorders.