by William F. Hamilton
from
AstroSciences Website
I have been reading a book entitled
The Field by Lynne McTaggert, a
book that could revolutionize our view of the universe once again.
One of the key notions in this book is the discovery of
biophotons,
a new study in the field of biophysics that could have a
far-reaching impact on our ideas of life and consciousness in the
universe.
What are
biophotons and how were they discovered?
“Biophotons, or ultra weak photon
emissions of biological systems, are weak electromagnetic waves
in the optical range of the spectrum - in other words: light.
All living cells of plants, animals and human beings emit
biophotons which cannot be seen by the naked eye but can be
measured by special equipment developed by German researchers.
This light emission is an expression of the functional state of
the living organism and its measurement therefore can be used to
assess this state. Cancer cells and healthy cells of the same
type, for instance, can be discriminated by typical differences
in biophoton emission.
After an initial decade and a half of
basic research on this discovery, biophysicists of various
European and Asian countries are now exploring the many
interesting applications which range across such diverse fields
as cancer research, non-invasive early medical diagnosis, food
and water quality testing, chemical and electromagnetic
contamination testing, cell communication, and various
applications in biotechnology.
According to the biophoton theory developed on the base of these
discoveries the biophoton light is stored in the cells of the
organism - more precisely, in the DNA molecules of their nuclei
- and a dynamic web of light constantly released and absorbed by
the DNA may connect cell organelles, cells, tissues, and organs
within the body and serve as the organism's main communication
network and as the principal regulating instance for all life
processes.
The processes of morphogenesis, growth,
differentiation and regeneration are also explained by the
structuring and regulating activity of the coherent biophoton
field.
The holographic biophoton field of
the brain and the nervous system, and maybe even that of the
whole organism, may also be basis of memory and other phenomena
of consciousness, as postulated by neurophysiologist Karl Pribram and others. The consciousness-like coherence properties
of the biophoton field are closely related to its base in the
properties of the physical vacuum and indicate its possible role
as an interface to the non-physical realms of mind, psyche and
consciousness.
The discovery of biophoton emission also lends scientific
support to some unconventional methods of healing based on
concepts of homeostasis (self-regulation of the organism), such
as various somatic therapies, homeopathy and acupuncture. The "ch'i"
energy flowing in our bodies' energy channels (meridians) which
according to Traditional Chinese Medicine regulates our body
functions may be related to node lines of the organism's biophoton field.
The "prana" of Indian Yoga physiology may be a
similar regulating energy force that has a basis in weak,
coherent electromagnetic biofields.”
First discovered in 1923 by Russian
medical scientist Professor Alexander G.Gurvich (who named them
"mitogenetic rays") and in the 1930s widely researched in Europe
and the USA, biophotons have been rediscovered and backed since
the 1970s by ample experimental and theoretical evidence by
European scientists.
In 1974 German biophysicist Fritz-Albert
Popp has proved their existence, their origin from the DNA and
later their coherence (laser-like nature), and has developed biophoton theory to explain their possible biological role and
the ways in which they may control biochemical processes,
growth, differentiation etc.
Popp's biophoton theory leads to
many startling insights into the life processes and may well
provide one of the major elements of a future theory of life and
holistic medical practice based on such an approach. The
importance of the discovery has been confirmed by eminent
scientists such as Herbert Froehlich and Nobel laureate
Ilya
Prigogine.
Since 1992, the International Institute of
Biophysics, a network of research laboratories in more than 10
countries, based in Germany, is coordinating research in this
field which promises rapid development in the next decade. “(1)
There are so many ramifications to the
study of biophotonic emissions that it is difficult to elucidate at
this time.
Biophoton studies seem to indicate that the emission is
coherent and that biophotons may be modulated and communicate
information not only throughout the body but into the extended
environment. It may be the process by which DNA actually
communicates its information to protein molecules in the process of
morphogenesis. It may have relevance to extra-sensory modes of
communication with other life forms and explain many mysteries of
life.
Here is a list of some of the properties and characteristics of
biophotons so far discovered
(2):
“Some steps in revealing important
properties of biophotons are,
-
careful measurements of the
spectrum
-
the analysis of the photo
count statistics
-
connecting the spontaneous
and delayed "luminescence"
-
investigations of the
temperature dependence of biophotons
-
correlating physical
properties of biophoton emission and biological
parameters such as growth, differentiation, DNA
-content, and anomalies
As far as results are available, a brief
summary justifies at present the following statements:
-
The spectral distribution of
biophotons covers at least the range from 200 to 800 nm [1]
-
The spectrum is not a line spectrum
but rather flat, following approximately the rule f(w) =
constant, where f describes the probability of occupying the
phase space cells of energy
.
This is a significant difference from a closed system, where f(w)
is the well-known Boltzmann distribution
, where T is the absolute
temperature [2]
-
The probability of counting
0,1,2,...., n biophotons in a preset time interval Dt follows
accurately a Poissonian distribution p(n,Dt) = exp (-<n>)
<n>n/n! , where <n> is the mean value of photon numbers
n during
the preset time interval Dt [2]
-
This Poissonian probability
distribution is fulfilled even in non-stationary biophoton
emission. It holds to time intervals down to at least Dt of 10-5
s [2]
-
Instead of following an exponential
decay, delayed luminescence can be described rather accurately
by a "hyperbolic relaxation" of the type A/(1+tz), where A and
z
are constant (including complex) values, while t is the time
after external excitation [2]
-
The temperature dependence follows a
Curie-Weiss law rather than the Arrhenius factor [3]
-
It is evident that at least a
significant part of biophoton emission originates from DNA [4]
-
There are manifold non-linear
dependencies of biophoton emission on cell densities [5]
One of the leading researchers in this
new field of biophotons is Fritz-Albert Popp of the
International
Institute of Biophysics (Biophotonics).
Popp was one of those
brilliant scientist who risked his career when he became interested
in biophotons and there potential for healing. Experiments have even
revealed that persons with deceased cells may be healed remotely by
those who transmit coherent states of information via biophoton
transmission.
Popp says,
“Biophotons are photons emitted spontaneously by all
living systems.
In particular, this phenomenon is not confined to
"thermal" radiation in the infrared range. It is well known at
present that biophotons are emitted also in the range from visible
up to UV. Actually, the intensity of "biophotons" can be registered
from a few photons per second and square centimeter surface area on
up to some hundred photons from every living system under
investigation.
The spectral distribution never does
display small peaks around definite frequencies. Rather, the quite
flat distribution within the range of at least 300 to 800 nm has to
be assigned to a thermodynamical system "far away" from equilibrium,
since the probability f(n) (see Footnote) of occupying the phase
space is on average almost constant and exceeds the Boltzmann
distribution in this spectral range by at least a factor of 1010
(in
the red) up to 1040 (in the UV-range).
Fig. 1 displays a typical
frequency distribution of a living system, where the spectral
intensity of biophotons (at the outside of the living system) has
been averaged over several measurements and then expressed in terms
of the excitation temperatures (upper figures and lower, left
figure) or the occupation probability f(n ) (lower right figure).
The term "bio-" in biophotons has been
introduced4 in the same way as it has been done in the term
"bio-luminescence", pointing to the biological source of the
emission, and the term "photons" in the word "biophotons" has been
chosen to express the fact that the phenomenon is characterized by
measuring single photons, indicating that this phenomenon has to be
considered as a subject of quantum optics rather than of "classical"
physics.”
(3)
Though biophoton emissions are weak and various instruments are
needed to detect these biophotons, the possibility exists that it
may give rise to methods of detecting extraterrestrial life forms
and determining their vital signatures.
“Whereas an incoherent source
relaxes according to an exponential relationship between light
intensity and time of measurement, a coherent emission decays
according to a hyperbolic relationship. Popp et al. and others
have done considerable research to measure the kinetics of the
decay of biological light emission from many organisms, with the
result that almost all of the decay curves show a hyperbolic
relationship.
Although hyperbolic decay might also be observed
for systems with a large number of independent emitters, Popp
and Li
10 maintain that under the particular conditions in which
they have measured hyperbolic decay for light from organisms,
the long-lasting hyperbolic decay observed for induced light
emission is a sufficient condition for coherence.”
(4)
It is possible that biophotons may even
be carriers of psi information and that a coherent coupling can be
established between two conscious life forms resulting in a
transference of information from a higher potential field to a field
at lower potential.
Even though this is conjecture at this point, it
suggests other means by which disparate life forms can communicate.
We know there is a process by which
trees communicate and even signal each other in the face of danger.
We may be exchanging information with pets and other animals through
biophotonic communication. This may be how some people who have a
green thumb affect plants they care for.
The possibilities have not
been fully explored, but I suspect that biophotonics will be a
growing science in the 21st century.
References
(1)
http://www.transpersonal.de/mbischof/englisch/webbookeng.htm
(2)
http://www.lifescientists.de/ib0205e_1.htm
(3)
http://www.datadiwan.de/iib/ib0204e_1.htm
(4)
http://www.noetic.org/Ions/publications/review_archives/26/issue26_10.html
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