Biomedical Engineering Reference
In-Depth Information
as binding energy. This applies to crystals where atoms rotate in
synchronised fashion and to biological systems in which DNAs are
liquid crystals, where biophotons link to other objects in the view
of the biological system. While this implies a biological capacity for
optical sight it can encompass other forms of biophotonic emission
and detection. This includes the complete body fields of biological
systems in general but is found in specialised physiological tissues,
such as the elasmobranch fish, which use pores, the ampullae
of Lorenzini, on the periphery of their dorsal fins for predation
purposes. Human perception is more than just visual and may be
neurological. The human brain may be able to sense the biophotons
of other conscious beings—not telepathy but a sensory ability to
physicallysynchronisewithotherbodyfields.Itmaybethatlikeeyes
thatcanactasadirectionalantennae,sotoothecraniummaybeable
toswivelaroundlikeabiophotonicdirectionalantennasystem.This
is part of a new understanding we might glean from the photon in
its role as a binding energy. So not just the sciences associated with
atomic chemistry but also previously unknown roles whereby the
biophoton connects living systems. Body fields are involved in this
perception of other biophotons around us. Similarly we also send
biophotonicsignals.
At the level of the macromolecule, and below, the physics of this
photon-level interaction is a resonance phenomenon as is the case
inside atoms, molecules, liquid crystals or crystals where it acts as
a binding energy and its phase length ranges over multiples of
π/
2.
Theinteractioncanalsobealong-rangedipole-dipoleorgravitation
effect whereby the molecules in a massive conglomerate are linked
to other nearby or remotely located massive conglomerates. The
phase lengths involved are now averaged across a range of different
wavelengths where the individual atomic masses are probably not
in dynamic equilibrium, depending on the dynamic state of the
gravitational system involved. Nevertheless the ensemble average
will form a dynamic equilibrium and be a multiple of
π/
2. Photons
and the derivatives of their flux densities, including their radial
derivatives, act as a binding energy between masses. At the atomic
level there are relatively few streams of photons, the streams act
only between pairs of atoms and the photons move in double
rotationsasperthegeneralsolutionofpartialdifferentialequations.
