scifimath

give me the tests QFT needs updated. Spacetime can morph the Quantum field but it isn't using it. give me whatever results you have lol, oh so all of a sudden duality isn't a duality I don't care about electrons They would be smart to put a camera inside and outside. Waves can go through barriers.

Fringes are not a sign of particles bouncing off each other. If they are both that would mean the waves would bounce and land at odd places far from the original last screen. Matter waves can go through barriers it's just very rare. You can fluctuate the barrier to get more to pass through it.

That's pretty lame if they don't bounce off each other? Cause that means they are Matter OR Waves ..not both at the same time.. One of these days you guys are going to accept this. waves can go through barriers, physical objects can not Physical objects use spacetime, not the quantum field. The state of a particle is decided before it starts moving on its path. You can't ignore the realms of the observed vs unobserved anymore.

Two unobserved matter waves with the same phase and frequency are set to collide somehow. See my additional experiment details in my last comment I was being sarcastic about matter disappearing ..that's ridiculous.

I was being sarcastic. This is fine, it just doesn't answer the main question because no one has tried it. Place two double slit experiments facing each other. Remove the final screen the particles would normally collide against. Set a dome over both experiments that can act as the final screen. Run the experiment ..see if you get dots in weird places.

oh so matter can disappear ..neat. Show me an unobserved quantum matter wave acting like a particle. Observing is an issue because you are only guessing/assuming what will happen. Wave function collapse happens when a quantum wave hits a spacetime object and can't move on. Observation (placing a detector that a particle can pass through) does decide if the particle will be cohered or not.

if they pass through each other without interacting. I don't care about observed atoms. Okay, two matter waves with the same frequency and phase. What happens?

I just want to know if they ghost each other. You could tell if you had detectors in spots where they would only land if they bounced off each other.

Shooting electrons at a surface is supposed to satisfy my question of what happens when you shoot two matter waves at each other?

you are going back to orbitals?

but it does have to be matter waves because we, apparently, have never tested with them before.

I have a plausible theory in this forum, but I'd be banned if I mentioned anything about it here.

So, statistically, what happens? How about two unobserved double slit experiments pointed at each other?

I want them to be quantum waves when they "hit" each other.

An unobserved atom smasher is what I need.

Well, the point I'm heading to is that they aren't physical. I want two atom cannons pointed at each other. Shoot a million at random angles, one of them is bound to hit another one ..right? Or do the two waves just ghost eachother?

I think orbitals go by a slightly different set or rules. :/ why would you generate them by the same source?

This is great (guess?), but do have any results besides orbitals?

I guess I want something more substantial. Thinking electrons represent whole atoms seems dangerous.

You consider an electron a matter wave?

I don't think the double slit should count as there is a good chance those two waves going through the slits are entangled. What do you know about unobserved quantum wave behavior?

I've posted these ideas on other sites longer ago than the book. I really wish someone had an account. ..are you saying the book may support my claims?

That book came out 4 months ago, what makes you so sure it is from the book?

I wonder if the article has mathematics.

Getting you guys to look at something plausible has been impossible.