Pilot wave resonance/nonresonance from the two receivers of a Bell's inequality experiment may affect the behavior at the source leading to a kind of Monty Hall problem observed as QM. Are we certainly capable of firing a singular entangled photon on command at the press of a button regardless of the orientation of the receivers, or does the firing ability of the source emitter seem to falter with orthogonality at the end receivers?
Of course this could be complicated by a mechanism at the source that ensures a single pair to be emitted. Imagine a mechanism that ensures that only one pair is produced, but it is produced eventually, like a for-loop with a break statement. And maybe the only way to conduct the Bell's Inequality experiment meaningfully is with such a throttling mechanism, which would mask the answer to the question above. Though there might be hints in the amount of time required to generate that singular pair, as if the for-loop had to run more iterations before it was produced, detected only with sensitive timing instruments like with side-channel timing attacks in cryptographic black boxes.
Of course this could be complicated by a mechanism at the source that ensures a single pair to be emitted. Imagine a mechanism that ensures that only one pair is produced, but it is produced eventually, like a for-loop with a break statement. And maybe the only way to conduct the Bell's Inequality experiment meaningfully is with such a throttling mechanism, which would mask the answer to the question above. Though there might be hints in the amount of time required to generate that singular pair, as if the for-loop had to run more iterations before it was produced, detected only with sensitive timing instruments like with side-channel timing attacks in cryptographic black boxes.