For electronic or microfluidic chip we can actively influence them from both directions - why couldn’t we do it also for some quantum computer technologies e.g. photonic?
For example using ring laser as in diagram below - unidirectional photon trajectories, creating positive radiation pressure in one direction - used as state preparation: influencing initial states in front of photonic chip.
In CPT symmetry perspective physics should work the same due to CPT theorem: photon trajectories would be reversed, what means positive radiation pressure into the back of CPT(photonic chip) - exactly as state preparation, but influencing CPT(initial state), what is the final state in <Phi_final | quantum gates | Phi_initial> symmetric formulation popular e.g. in scattering theory.
If possible, we could get postBQP replacing postselection with applied physical constraints - could e.g. attack NP problems.
Paper: https://arxiv.org/pdf/2308.13522 , talk: https://www.youtube.com/watch?v=pv95hvSdA3c - containing some basic photonic test proposals, I am looking for a collaboration to perform.
