TGD approach leads to a prediction that biophotons result when dark photons with large value of effective Planck constant and large wavelength transform to ordinary photons with same energy. The collaboration with Lian Sidorov stimulated a more detailed look for what biophotons are. Also the recent progress in understanding the implications of basic vision behind TGD inspired theory of consciousness erved as an additional motivation for a complementary treatment.
The anatomy of quantum jump in zero energy ontology (ZEO) allows to understand basic aspects of sensory and cognitive processing in brain without ever mentioning brain. Sensory perception - motor action cycle with motor action allowing interpretation as time reversed sensory perception reflects directly the fact that state function reductions occur alternately to the two opposite boundaries of causal diamond (which itself or rather, quantum superposition of CDs, changes in the process).
Also the abstraction and de-abstraction processes in various scales which are essential for the neural processing emerge already at the level of quantum jump. The formation of associations is one aspect of abstraction since it combines different manners to experience the same object. Negentropic entanglement of two or more mental images (CDs) gives rise to rules in which superposed n-particle states correspond to instances of the rule. Tensor product formation generating negentropic entanglement between new mental images and earlier ones generates longer sequences of memory mental images and gives rise to negentropy gain generating experience of understanding, recognition, something which has positive emotional coloring. Quantum superposition of perceptively equivalent zero energy states in given resolution gives rise to averaging. Increasing the abstraction level means poorer resolution so that the insignificant details are not perceived.
Various memory representations should be approximately invariant under the sequence of quantum jumps. Negentropic entanglement gives rise to this kind of stabilization. The assumption that self model is a negentropically entangled system which does not change in state function reduction, leads to a problem. If the conscious information about this kind of subself corresponds to change of negentropy in quantum jump, it seems impossible to get this information. Quite generally, if moment of consciousness corresponds to quantum jump and thus change, how it is possible to carry conscious information about quantum state? Interaction free measurement however allows to circumvent the problem: non-destructive reading of memories and future plans becomes possible in arbitrary good approximation.
This memory reading mechanism can be formulated for both photons and photons and these two reading mechanisms could correspond to visual memories as imagination and auditory memories as internal speech. Therefore dark photons decaying to biophotons could be crucial element of imagination and the notion bio-phonon could also make sense and even follow as a prediction. This would also suggest a correlation of biophoton emission with EEG for which there is a considerable evidence. The observation that biophotons seem to be associated only with the right hemisphere suggests that at least some parts of right hemisphere prefer dark photons and are thus specialized to visual imagination: spatial relationships are the speciality of the right hemisphere. Some parts of left hemisphere at least might prefer dark phonons: left hemisphere is indeed the verbal hemisphere specialized to linear linguistic cognition.
In the sequel I shall discuss biophotons in TGD Universe as decay products of dark photons and propose among other things an explanation for the hyperbolic decay law in terms of quantum coherence and echo like mechanism guaranteing replication of memory representations. Applications to biology, neuroscience, and consciousness are discussed and also the possible role of biophotons for remote mental interactions is considered. Also evidence for biophonons (Taos hum) is discussed.
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