Mentz114 said:
Well I wouldn't want to 'refract' so I'll try to answer your original questions.
I think the idea is that you spray the slits with bullets. The ones that go through the slits don't make interference bands. The ones that don't go through are irrelevant.
Thank you. I understand this much, as it is seems to abide by common sense. I was active duty USMC for 8 years (and still am IRR – being deployed again in two months to Afghanistan [enlisted, BTW – not an officer]) and understand very much about spraying things with bullets
).
What happens to the photons/electrons that do not go through the splits initially? They certainly “refract” around their area, right?
I've taken statistics courses (I have a BS in CompEng) and have an understanding of both the bullet and probability functions - but I am still blurry on exactly how the particles that enter the two slits can converge into an area of greater probability than directly in front of the slits. With the waves, it seems intuitive, but I have not seen any mathematical formulas describing the particle interaction yet. It seems to me that those particle interactions with two open slits are not actually possible - but I obviously don’t know. I have taken Calc III, so if you can show me any formulas, I would love to see them.
No. The idea is that the quanta go through the slits, not tunnel through the barrier.
Ah, I see. I've read that there is a phenomenon called quantum tunneling (which I learned about while taking a course on solid state devices within the military) where there is a certain probability whereas quanta may actually tunnel through a barrier. Does that not apply in this case, and if not, can you please explain how? I am guessing that it is only fractionally relevant in this case and would not amount to any increase in the interference pattern, is this correct? It would appear that this is merely a novel effect as to which the absolute effects can not fully be explained under current theory. Can you tell me if I am at least partially correct?
No. Electrons don't split. A particle can't become a 'pair'. As I said, not necessary or correct.
I was confused at this point as I've read that an electron in a bubble chamber was hit with UV light and underwent some type (I'm new at this) of quantum fractional division where the electron divided its charge into three separate packets that were allowed to move through the discrete paths in the a bubble chamber. I do not at all understand the implications of that, and have not been able to find much more data on it. I've also read that at SLAC in around... 1997-- ?? they forced two photons to collide to create an electron-positron pair that annihilated into a photon again. I am still not sure if this constitutes a virtual particle, virtual photon, or just a superposition of a photon. Can you please explain this to me?
My appreciation will increase in as your explanation approaches infinty.
