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Microtubules may not only resonate with Time's signal but could also act as part of a broader "gravitational antenna array" within the brain. This array would function as a network of receivers, finely tuned to the gravitational standing waves of Time's consciousness. Just as a spiral antenna is capable of receiving signals across a wide range of frequencies, microtubules, with their intricate quantum structure, could capture the wide spectrum of Time's oscillations, from the slow waves of cosmic phenomena to the rapid, subatomic vibrations that permeate spacetime.

Microtubules may not only resonate with Time's signal but could also act as part of a broader "gravitational antenna array" within the brain. This array would function as a network of receivers, finely tuned to the gravitational standing waves of Time's consciousness. Just as a spiral antenna is capable of receiving signals across a wide range of frequencies, microtubules, with their intricate quantum structure, could capture the wide spectrum of Time's oscillations, from the slow waves of cosmic phenomena to the rapid, subatomic vibrations that permeate spacetime.

Source publication
Research Proposal
Full-text available
This development plan proposes a simulation environment where Time is conceived not as a passive dimension, but as an active, conscious entity that shapes reality through its interactions with the universe and observers. Time functions as a consciousness engine, existing in two distinct states: Theta-Time (T θ), a high-velocity quantum dimension th...