Remember, in the real world, all of this happens in a continuous configuration space with a differentiable amplitude distribution.
So, in reality, since gravitational interactions and whatnot cause the photon to always have a tiny effect, even with no sensor, it will very rarely show up at Detector 1. And as the level of interaction with the rest of reality increases, P(D1) approaches 50%. Right?
And as the level of interaction with the rest of reality increases, P(D1) approaches 50%. Right?
and this is de-coherence? This is why the macro-world is seemingly classical? There are some many elements in the system that you never get anything that doesn’t intact with something else and all the configurations are independent?
Remember, in the real world, all of this happens in a continuous configuration space with a differentiable amplitude distribution.
So, in reality, since gravitational interactions and whatnot cause the photon to always have a tiny effect, even with no sensor, it will very rarely show up at Detector 1. And as the level of interaction with the rest of reality increases, P(D1) approaches 50%. Right?
and this is de-coherence? This is why the macro-world is seemingly classical? There are some many elements in the system that you never get anything that doesn’t intact with something else and all the configurations are independent?