Floquet Driven Room Temperature Macro-Quantum Coherent Frohlich Condensates In Quantum Dot Artificial Neural Nets

It has been proposed by Hameroff and Penrose that consciousness is generated in the EPR entangled network of electric dipole moments of the protein dimers in the microtubule substructure of living matter pumped off thermodynamic equilibrium via molecular-level metabolic pumping similar to that of a laser. We propose a gedankenexperiment to test the Hameroff-Penrose hypothesis using artificial microtubules constructed out of metasurface lattices of interacting electric dipole quantum dot "meta-atoms" forming artificial neural networks.

Turing-type tests of pattern recognition training of the net when in incoherent thermodynamic equilibrium will be compared to the same training when Floquet-pumped above the critical threshold into the coherent "laser-like" Frohlich condensate of collective modes of the electric dipoles. We expect qualitative differences in the behaviour of the net in these two different modes.