A Cosmogonic Model of Human Consciousness: Part II

Exploration

A Cosmogonic Model of Human Consciousness: Part II

Claudio Messori*

ABSTRACT
This series of articles present a physicalist account on the origin of
human consciousness. What is presented is a cosmogonic model based on the
centrality of Tension assumed as an intrinsic and irreducible ontological
presupposition associated with a pre-energetic undifferentiated and
totipotent proto-dynamic principle (dynamis), whose differentiation gives
birth to a space-time system of correlative interactions between physical
objects denominated differentiated tensorial fractals (or tangent tensions)
and undifferentiated tensorial fractals (or qualia). To describe the
structure and dynamics that qualify the fundamental space-time dimension we
can make use of the holographic principle, fractal self-similarity and the
role reserved to the twisting moment (torque) in certain dual torus
topology. In this light, human consciousness is recognized as the
ecological and neuropsychological result obtained from the joint action
realized through the holographic module, between poietic function,
syntropic function and mnemotropic function the meanings of which shall be
defined in the articles.

Part II of this series of articles contain: 2. Mnemopoiesis, mnemotropy and
planes of manifestation; and 3. Strange Holographic Attractor, physical
dimensions, mnemo-tropic configurations.

Key words: consciousness, states of consciousness, image-making, qualia,
psychism, auto-organization, strange holographic attractor, syntropy,
entropy, negentropy, mnemotropy, mnemopoiesis, confinement process,
dynamis, holographic-fractal space-time, event-horizon, , toroid-poloid,
tension, torque, Coriolis force, spin-internal motion.


Dedicated to the Jungian unus mundus





2. Mnemopoiesis, mnemotropy and planes of manifestation




Consciousness can be understood as an emergent property of memory. Kunio
Yasue



Memory is a printed pattern of order supported by long range
correlations. Hiroomi Umezawa

In the coexistence of observable states (explicated) and non observable
states (implicated) [David Bohm] and in the alternating of rarefied states
and condensed states what remains is the prescriptive and undifferentiated
role exercised on the genesis and non-linear transformation of the forms of
manifestation from an original and universal poietic principle (which
produces development and structure ) called auto-organization [1].

The contextualization of this prescriptive and undifferentiated action is
realized in the constitution of physical objects called attractors,
syntropic nuclei [2] (inductors of coherence in the organization of a
system) that perform a catalyzing action on the dynamics of the confinement
processes lying at the basis of phenomenological becoming, impressing a
preferential orientation on them.

The combined action obtained via the poietic function of auto-organization
and the syntropic function of the attractors is nonetheless sufficient to
bring to a close an Allopoietic Universe[3] tending towards the entropic[4]
and oriented towards a perfect thermodynamic equilibrium, i.e. towards
annihilation (in order for any universe of transformations to subsist there
must be an enduring unstable state characterized by a distribution of hot
points and cold points, if this were not to happen, if, for example, the
energy state of a universe of transformations were to degrade into perfect
thermodynamic equilibrium, the differentiated distribution of hot points
and cold points would be substituted by an undifferentiated and uniform
distribution of only hot points or only cold points, which would lead to a
zeroing of any energy process, and consequently to a zeroing of the
universe of energy transformations), however this is not actually
sufficient when the complexity and progression of its dynamic and its
structuring make it an Autopoietic Universe[5] structured as a fractal[6]
[2] tending towards the syntropic. In this case there is a need for the
availability of an acting principle which, through recourse to mnesic
processes [3] introduces a variable and convergent quota of information
(negentropy[7] or negative entropy, Erwin Schrödinger) [4] non-
computational (non-logical) in the genesis, diversification and development
of confinement processes lying at the root of phenomenological becoming.
The task of engramming a web[8] (space-time) through recourse to mnesic
processes, a web that can guarantee continuity and redundancy in the
interweaving of the non-linear pattern of cause and effect that qualifies
the Universe of Transformations that we are part of, where nothing is
created, nothing is destroyed, but everything is transformed via recourse
to mnesic processes, is performed by what I shall call mnemotropy. The pair
of consonants mn in the word mn-emotropy means memento, memory,
reminiscence (Plato), in reference to what endures, what remains, from
which come the Greek verb mimnèsko, which means remember, and the word
mnème-es, which means memory, giving the Latin mnesi-s, but also mens,
meaning mind. The word tropos stands for everything that changes, that is
subject to transformation and that possesses an orientation, a direction.
The word mnemotropy then possesses two meanings, one extensive and one
intensive. The extensive meaning is a memory-of-becoming i.e. what is
transformed with coherence (orientation, direction) possesses a memory of
the history of the transformation, where by history is meant the totality
(wholeness) of the imprints of the past/present/future confinement
processes that condition that localization of that particular confinement
process. Instead, the intensive meaning is memory-in-becoming, or that
which is transformed with coherence has recourse to enduring memory
processes.



A) Definition of mnemotropy:
Mnemotropy is an inherent, fundamental and necessary
property, of the implicated dynamic of our Universe of
Transformations. By mnemotropy is indicated the
irreducible and universal negentropic action (José Cruz
Íñiguez Romero), which, through recourse to non-linear
mnesic processes of a chaotic type, introduces a
variable and convergent holographically-configured quota
of non-computational information (non-logical) in the
genesis, diversification and development of the
confinement processes lying at the basis of
phenomological becoming. In relationship to the process
of implementating the poietic role of auto-organization
and the syntropic action of the attractors in the
genesis, diversification and development of the
confinement processes, the role performed by the
introduction of a variable and convergent quota of
information based on recourse to mnesic processes is
twofold: on the one hand it introduces a motive of
causal continuity (space-time dependent), non-measurable
and intrinsically unpredictable, in the genesis,
diversification and development of confinement
processes; on the other it makes possible and compatible
with the genesis, diversification and development of the
confinement processes themselves the superseding
(transition/bifurcation) of the contingent space-time
confines that restrict the possibilities of their
manifestation.


The result of the joint action that traverses the holographic module is
realized between poietic function, syntropic function and mnemotropic
function is an a-intentional articulate and complex ordering function that
I qualify as mnemopoiesis[9], where mnem- stands for memory, -o stands for
holographic, poie- stands for poietic, -sis stands for syntropic, hence:
memory-(h)olographic-poietic-syntropic, whose acronym is MOPS.

The overall state of every confinement process or system of confinement
processes of phenomenological becoming depends and is supported by a
certain degree and level of synergy between poietic action/syntropic
action/mnemotropic action which, in other words, is indicated as a state of
mnemopoiesis. Outwith the human environment, where the use of the term
consciousness remains amply justified and appropriate, what with respect to
the biological human being we have seen narrowing to the concept of
conditioned-consciousness, is rendered via the concept of an a-intentional
articulate and complex ordering function and indicated by the name
mnemopoiesis. From a psycho-physical point of view what in relation to the
human being we call a state of consciousness is to be understood as the
state of mnemopoiesis inherent to the human being, while the passage from a
state of consciousness to another is to be understood as a transition from
one state of mnemopoiesis to another. In determining the dynamics that
qualify the state of human consciousness the a-intentional character of the
equivalent state of mnemopoiesis has a value, as do the general psycho-
physical laws that qualify the MOPS. On the directive of these indications,
by altered state of consciousness is meant the state of alteration, whether
transitory or permanent, reversible or irreversible, of the relational
structure of a given state of mnemopoiesis. A structure that cannot ignore
the philogenetic, genetic, epigenetic, ontogenetic, psychic and
anthropopoietic relationship of the individual with his/her surroundings.

In particular, the alteration can occur in the form of interference or in
the form of compromise and may involve:

i) the degree and/or the level of synergy between poietic
action/syntropic action/mnemotropic action;
ii) the dynamics of the poietic function;
iii) the dynamics of the syntropic function;
iv) the dynamics of the mnemotropic function;
v) the dynamics of the holographic frame that supports the interaction
between the functions.

E.g., in altered states of consciousness induced by certain meditative or
shamanic practices, or by the use of psycho-active substances, or found in
relation to paranormal phenomena (ESP) or phenomena of possession, there is
the establishment of non-local relationships of interference that are more
or less intense and lasting between mnemotropic configurations particular
to the individual, as well as mnemotropic configurations extraneous to
him/her, with consequences that may prove extremely deleterious or
extremely illuminating.

By confinement process, mnesic process and auto-organization are meant,
respectively:

i) every structuring process of a system of correlations endowed with
a degree of subsistence (condition of resonance) such as to make it
distinct and/or distinguishable (even when not observable) from the
context of the relationships it forms part of[10] ; in general, a
confinement process is equivalent to a phenomenon of localization;
in a relativistic and quantum-relativistic perspective like the one
adopted here, which recognizes the legitimacy of a physical entity
acting as much in space-time as in the quantum field, the
localization cannot be established through recourse to an inertial
system defined by ordinary parameters of time and space nor by
assuming a purely mathematical conception of space-time (like the
one adopted classically in the case of a black hole[11]), on the
contrary the sole inertial reference system adoptable is that given
by the event-horizon (in the sense of a space-time boundary[12])
[5], the virtual borderline[13] between planes of the manifestation
that traces the limits of observability and the comparability of
the phenomena that lie beyond here and beyond the event-horizon
itself; from the moment that, by definition, the event-horizon is a
de-localized virtual entity[14] the relativistic confinement
processes and hence of localization de-localized that have the
event-horizon as an inertial reference system correspond to de-
localized correlative phenomenon (entanglement);


ii) every process that is stationary but not stable of retention of the
absent [Messori, 2011]: a) induced by the non-linear and non-
computational (non-logical) interaction that exists between all the
relationships (relativistic, quantum, ordinary) involved in the
progress of a confinement process and b) retained and re-elaborated
via tension conjugate dynamics (in which the quantum plane is
interfaced via phase conjugate dynamics) in the form of a
holographic image pattern [15] (mass- and energy-free) in the
chaotic fractal (correlative dynamics between interspaces and
intertimes[16] of the poloid in the Haramein-Rauscher U4 Space-time
Dual Torus Topology,Fig.11,[6]) of the fractal fabric (quasi-
continuous, non-quantized) of the space-time horizon of dimensional
events[17], in turn interfaced with the chaotic fractal of the
space-time horizon of fundamental events, the mirror symmetry
horizon [7] generated by the transition between the non-excited
regime and excited regimes of the Irreducible Relativistic
Dimension (N-EIRD(EIRD, see Paragraph 4.);




iii) every process in which the organization (restrictions and
redundancy) of a system is developed spontaneously, without this
development being controlled by factors inside or outside the
system: every degree of the manifestation is unconditionally
inclined and prescriptively oriented to set in motion confinement
processes and to develop the relationship systems that give form
(in-form) to the dimensions of manifestation[18][8].

In the case of complex non linear systems[19] auto-organization is
contextualized in the spontaneous formation of islands of order or
attractors which:

- within the ambit of the Excited Irreducible Relativistic
Dimension (EIRD; see Paragraph 4.) attract the evolution of its
dynamic towards the constitution of polarized hysteresis
domains[20] (Fig 1; Fig. 2; Fig. 2b) governed by correlative
interactions between mass- and energy-free physical objects
denominated differentiated tensorial fractals (or tangent
tensions) and undifferentiated tensorial fractals (or qualia),
the first polarized in the spatial component and the second
polarized in the temporal component of the space-time continuum
(Fig. 1 and Fig. 3);


- within the ambit of the Excited Reducible Relativistic Dimension
(ERRD; see Paragraph 8.) attract the evolution of its dynamic
towards the constitution of space-time holographic fractals
(mass- and energy-free) given by the rotational torsional
stabilization of a dipolar tensorial moment known as
spin/internal motion [Huping Hu and Maoxin Wu][9], stationary
and fractalary relativistic objects (non-quantized) featuring a
quasi-kinetic potential (where the motion impulse is latent),
the seat of a prochiral stereogenic centre, possessing a
polarization angle shifted towards the spatial component of the
space-time geometry of the ERRD regime. The tendency to auto-
organization of these relativistic fractal objects called
spin/internal motion generates a tensorial solitonic field
(Instantons, Monopoles, Non-Abelian Vortices in Theories of
Supersymmetric Gauges; Strings; Nambu-Goldstone bosons) [10]
made up of two tensorial fields (one polarized in the spatial
component of space-time and associated with the rotational
tensorial fractal, the other polarized in the temporal component
and associated with the torque tensorial fractal) identical
(replicant), symmetrical (rotational and torque symmetry),
spatially in phase but temporally out of phase;


- in the ambit of the Quantum Dimension (QD; see Paragraphs 8.1,
8.2) they attract the evolution of its dynamic towards the
constitution of domains of oscillatory coherence
(frequency/phase relationships) governed by correlative
interactions between matter fields/wave fields and dipolar
gradients of energy quantums (QED, Quantum Electrodynamic Field
Theory);

- in the ambit of the ordinary dimension or Hyper (cosmological)
and Middle Dimension (H-MD; see Paragraph 8.3) they attract the
evolution of its dynamic towards the constitution of domains of
atomic-supratomic stereodynamic coherence governed by
correlative interactions between electronic stereogenic
processes (spatial distribution of the electromagnetic charges
induced by the eliptical polarization, helicity, of the
electromagnetic fields and/or the production of excitons[21])
and photonic stereogenic processes (scalar or torsional temporal
distribution of the phase relationships induced by the
modulation of the reciprocal angle of rotation/torsion impressed
upon the pairs of waves,vectorial and scalar, that make up the
electromagnetic wave and/or the pair of waves,replicants, that
make up the solitons [22]).

The physical planes of the manifestation acted upon prescriptively by the
auto-organization and descriptively by the attractor number three:

i) a plane of maximum inconsistency (virtual, intrinsically non-
observable);
ii) a plane of relative consistency (granular/particle, intrinsically
subject to partial observability);
iii) a plane of maximum consistency (massive, observable).

These three planes are respectively: the Relativistic Plane (Irreducible
Relativistic Dimension, IRD; Reducible Relativistic Dimension, RRD), the
Quantum Plane (Quantum Dimension, QD), the plane of Hyper and Middle
Dimension (H-MD).


3. Holographic Strange Attractor, physical dimensions, mnemo-tropic
configurations

The phenomena associated with memory are ubiquitous at the nanoscale.
Massimiliano Di Ventra

The attractor that acts within the ambit of the four distinct but
embricated dimensional ambits (EIRD, RRD, QD, H-MD) is a unique attractor
belonging to the category of strange attractors[23] denominated Holographic
Strange Attractor (HoSA) [Messori, 2011], whose action varies according to
the polarization angle function that exists between the three event-
horizons that specify the observability of the phenomena generated by the
dimensional transitions EIRD ERRD EQD H-MD in relation to the fundamental
space-time horizon generated by the N-EIRD EIRD transition (Non-Excited
Irreducible Relativistic Dimension Excited Irreducible Relativistic
Dimension).

The SHA is generated by a auto-recombining structural algorithm whose
interfacing dynamic (feed-forward) with the progress of confinement
processes (which it governs) is processed by a hysteresis-dependent
evolutive algorithm.

The auto-recombining structurale autoricombinante algorithm that generates
the HoSA is a quasi-stationary algorithm obtained by iteration (Z) of the
type:

Z = f(x+y)± + c± = f(zp)± + c± (1)

where: zp = Zp-1

i.e. where the iteration Z is a function f in which for each iteration the
operator zp

zp = (x+y)± = Zp-1

assumes the value of Z obtained in the preceding iteration, added to a
dependent variable c that can assume both real and imaginary plus and minus
coefficients.

In the iteration the operator zp = (x+y)± is formed by the sum of the
successive numbers x,y (pairs) from the Fibonacci series (1, 1, 2, 3, 5, 8,
13, 21, 34, 55, 89, 144,...) [11].

The dependent variable c± is associated with the internal hysteresis state
function [B. Muthuswamy and L. O. Chua, 2010][24] of the HoSA. The
variability c± is a function fc in which for each iteration the variable
c± assumes the coefficent (±) real or imaginary produced by the hysteresis-
dependent evolutive algorithm, i.e.: the internal hysterisis state of the
HoSA is associated with the dependent variable c± which is a function of
the iteration (ġ) produced by the hysteresis-dependent evolutive algorithm.




The hysteresis-dependent evolutive algorithm that operationalizes
(contextualizes the dependent variables) the interfacing dynamic (feed-
forward) of the auto-recombining structural algorithm hosted by the HoSA
with the becoming of the confinement processes is a non-linear transient
algorithm with an n variable whose iteration (ġ) is of the type:




ġ = fc(h, x, μ) = c± (2)




the iteration ġ associated with the internal hysteresis state of the HoSA
is governed by a system of differential equations fc(h, x, μ) where h is
the hysteresis variable (i.e. Chua's state variable), x is a set of
arbitrary functions (expressing how the changing state variable depends on
some x,y,z factors) while μ is a set of control parameters (i.e. the
undifferentiated tensorial fractals or qualia which in-form the poloid in
the Haramein-Rauscher U4 Space-time Dual Torus Topology) that vary with
changes in the dimensional plane where the HoSA acts.


Applying equation (2) to equation (1) we can write the complete HoSA
algorithm:


Z = f(x+y)± + fc(h, x, μ)± (3)


No. (3) establishes the relationship of dependence that links the auto-
recombining structural algorithm which generates the HoSA to the hysteresis-
dependent evolutive algorithm that operationalizes (contextualizes the
dependent variables) the interfacing dynamic (feed-forward) of the HoSA
with the becoming of the confinement processes it governs.

The left hand side of (3) corresponds to the algorithm whose iteration
generates the Mandelbrot attractor for c = 0 while the right hand side
corresponds to the generic algorithm whose iteration generates a dynamic
system of a chaotic type like that governed by the Ueda attractor.

The task of in-forming, resorting to mnesic processes, the stationary non-
linear configuration (Gestalt, isomorphism) of holographic image-making
patterns that the HoSA must conform to in its syntropic action on the
progress of the confinement processes (localization) it governs (ensuring
space-time continuity and the possibility of superseding it), is performed
by the mnemotropic configuration acting on that determined plane of the
manifestation, where by mnemotropic configuration is meant the meta-psycho-
physical configuration[25] (of transition and connection, via mnemotropic
processes, between dimensions and/or different planes of the manifestation)
intrinsically non-measurable and unpredictable, stationary but not stable,
implicated in the progress of the holographic image-making patterns of the
internal chaotic pattern (poloid) of a determined space-time event-horizon,
whose statistical effects on the transformation process of the hysteresis
cycles involved in the confinement processes are identified by the system
of differential equations fc(h, x, μ) which govern the iteration ġ
associated with the internal hysteresis state of the HoSA.

On nanometric and sub-nanometric scales a hysteresis cycle (Twisted-Pinched
Hysteresis Loop) represents the most elementary and less integrated form of
interaction between mnemotropic process and confinement process (a space-
time dependent process).



Fig. 1:
Twisted-Pinched tangent tension-torque Hysteresis Loop
[Image source (modified): Memristors and the future. At:
http://www.nobeliefs.com/memristor.htm]

Within the context of the IRD (EIRD) excited regime on the abscissa of the
schematic diagram of the Twisted-Pinched Hysteresis Loop (T-PHL) are shown
the values of the torque while on the ordinates are shown the values
(fractalized ) of the tangent tension (tangential to the line of symmetry
of reflection of the EIRD). The line orthogonal to the axis passing through
the poles of the loop represents the line of symmetry of reflection of the
loop, and by extension represents the event-horizon generated by the
transition N-EIRD EIRD. The positive and negative values related to the
hysteresis cycle of the twisted-pinched loop/EIRD indicate respectively the
polarization of the two spatial and temporal components of the space-time
continuum. The point of decussation of the direction of flow (polarization
of the tangent tensions) constitutes the point of torsion (twisted-
pinched/angle of polarization) where the space-time transitions take place.
Within the context of the EIRD the tri-quadri-n-dimensional hologram
derived from the bidimensional geometry of the Twisted-Pinched Hysteresis
Loop generates a fractalized holographic hysteroid of the toroid-poloid
type in three, four, n dimensions. Dynamically, the T-PHL can be thought of
as a combined movement, with one or more degrees of freedom around the line
of symmetry and the line passing through the poles of the loop, between the
two helixes of the loop folded in on themselves. The structure and the
dynamic of the T-PHL constitute the matrix of all the structuring processes
of physical phenomena including human neurological and psychic phenomenon.
Neurologically, as an example, the decussation of the nerve fascia at a
trochoid-encephalic level (mammals) reproduces the structure and dynamic of
the T-PHL, the vertebral column and the neurological adjuncts (spinal cord
and intraforaminal spinal ganglions) correspond to the event-horizon of the
Neuraxial System (animals with bilateral symmetry), while the
cephalorachidian liquid and the neuroglia represent the hydro-dielectric
substrate which acts as a milieau for the neuroelectrochemical hysteresis
cycles. Physically, the structure and the dynamic of the T-PHL can be
found, as an example, in the eliptical polarization of the two-component
electromagnetic wave, i.e. vectorial (polarization in the spatial space-
time component) and scalar (polarization in the temporal component), and in
the configuration of the solitonic wave, it too with two components
(replicants) spatially in phase but temporally out of phase by 180°. It
should be noted that the degree of torsion at the point of space-time
transition of the twisted-pinched loop, and the degree of rotation that
elapses between the component polarized in space (positive values) and the
component polarized in time (negative values) of the twisted-pinched loop
are variable. This variability (the right hand part of equation 3) is
associated with diversification in the forms of the manifestation.



Fig.2
a) Field Structure Topography by Don Briddell
b) Proposed Nuclear Structure by W R Hohenberger
(Image source: http://www.worldnpa.org/pdf/abstracts/abstracts_2649.pdf )


Fig. 2b
Loop Aether Unit (left) and the double loxodrome (right)
Image source:
http://peswiki.com/index.php/Paper:A_New_Foundation_for_Physics,_by_Quantum_
Aether_Dynamics_Institute




Fig. 3: FU XI image as an Atom: the upended 8, mathematical infinity in the
atom.
(Image source: http://www.qhbiocybernetics.com/coin192.html )
The Fu Xi drawing, shows two groups of trigrams set out in a circle
positioned orthogonally on the radius (forming the two helixes of a Twisted-
Pinched Hysteresis Loop), four with Yin predominance (negative polarity)
plus four with Yang predominance (positive polarity). The table is based on
the description of the atom which, in the form of an analogical drawing,
shows the code of creation and the development of the Cosmo-Universe.
Reading from the center of the circle to the outside, the Yin phase
describes the rising Universe inside (the irreversible N-EIRD EIRD
transition) and the Yang phase describes the sprouting Universe outside
(the reversible EIRD ERRD EQD H-MD transitions).
This equation by Fu Xi presents an analogical quantum energy signal of the
elements comprising the atom; following the dynamics of the electromagnetic
corollary of the atom in negative phase (four trigrams Yin): neutrinos,
protons, electrons and neutrons; and in positive phase: antineutrons,
positrons (antielectrons), antiprotons and antineutrinos, as well as its
fundamental particles, quarks and leptons.

(Continued on Part III)

Note: References are listed at the end of Part IV

-----------------------
* Corresponding author: Claudio Messori, Independent Researcher, Str.
Villaggio Prinzera 1, Fraz. Boschi di Bardone, Terenzo 43040, Italy. Phone:
+393282876077; e-mail: [email protected]

[1] Amongst the theories that according to different points of view deal
with self-organization we find the hydrodynamic instability of Rayleigh-
Bénard, the neg-entropy of Schrödinger, the non linear thermo-dynamics of
Prigogine, the general theory of systems of Von Bertalanffay, the
synergetics of Haken, the molecular auto-organization of Eigen, the
autopoiesis of Maturana and Varela, the implicated order of Bohm, the
condensated of Frohlich, the auto-oscillations of the quantum field of zero
point of the QED of Preparata, the auto-perturbations of the spin networks
of the Theory of Quantum Gravitation of Loops or spin networks of Rovelli
and Smolin (Loop Quantum Gravity Theory), the auto-
dynamism,zitterbewegung,of relativistic spin of the Spin-mediated
Consciousness Theory of Huping Hu and Maoxin Wu, the oscillatory auto-
coherence of the condensates of Bose-Einstein, the auto-interactions of the
Higher Spin Theories, etc.

[2] Syntropy is a quantitative measure of internal organization
attributable to a physical system (Luigi Fantappiè). For any system state
our knowledge of it usefully knows how to associate a level of entropy or
internal non-organization of the system, calculable by means of a precise
mathematical formula. If this level is not the theoretically possible
maximum, then this means that with the same system state there is
associable also a balance of non-entropy or syntropy, i.e. internal system
organization, which remains "automatically" defined as a complementary
quantity of entropy, and that it can therefore be described and represented
in an equally useful and manageable way.

Etymologically the word syn-tropy is composed of the prefix syn which comes
from sun, meaning together, at the same time, plus tropos, referring to
what changes, is subject to transformation, which possesses an orientation,
a direction, hence the meaning of syntropy becomes a set of elements or
factors that change in unison according to a certain orientation (not
randomly but coherently, e.g., in phase).

[3] I use the term allopoietic to indicate the organization of the Universe
in its totality (wholeness) and not with respect to its parts. An
allopoietic organization can be defined as a network of inter-related
processes that produce components, but does not produce the components and
processes that make the organization exist in a unitary way. The product of
an allopoietic organization is something different from the system itself.
Thus the effective realization of such a system is determined by processes
that do not form part of its organization.

[4] I use the term entropy in the sense of statistical entropy (Ludwig
Boltzmann), to indicate the divergent transfer of the number of degrees of
freedom of a system, i.e. the process of rarefaction of information
contained in it, which expressed in probabilistic terms means an increase
in the quantity of statistical uncertainity indissolubly associated with
any distribution of probability (Claude Shannon). In this meaning the
entropy of a system is not a function of temperature but is more generally
a function of the possibilities of spontaneous transformation of a system,
in the sense that with the fall in possibilities of spontaneous
transformation (auto-induced) of a system its entropy increases. The
restrictive use of entropy as a function of temperature may be considered
valid only if applied to a mechanical system or a natural system reduced to
a mechanical system. In this case, so that the structural components of the
system can carry out their function, the thermal dispersion (entropy=energy
divided by a temperature) generated by the system in relation to the
destination must not exceed a given threshold.
[5] I use the term autopoietic to indicate the organization of the Universe
in its wholeness and not with respect to its parts. An autopoietic
organization can be defined as a network of inter-related processes that
produce components in such a way that the components (through their
reciprocal interaction) generate the same network of processes that has
produced them. This means that an autopoietic organization realizes its
network of processes as a unit that is identifiable in the space-time where
the components exist. The product of an autopoietic system is always the
system itself.

[6] A fractal is an object, or a process or a system of processes, that is
fractionary with a complex structure, or dynamic, and subtly ramified;
gradually enlarging a part of the fractal structure or process brings to
the light details that repeat in a similar way (are self-similar) at all
the scales of growth (invariance of scale). Therefore, a fractal always
appears similar to itself whether it is observed at a large, small or
minute scale. A fractal is the transformation of a simple phenomenon into a
complex spatial and/or temporal configuration, based on the algorithmic
recurrence of its constituent fractions.

[7] Negentropic Processes are those whose occurrence is accompanied by a
negative total entropy change i.e. by a net decrease in the entropy of the
universe (José Cruz Íñiguez Romero). Often, the term negentropic is used as
a synonym of syntropic while their respective meanings are different albeit
complementary: an action inducing coherence in the organization of a
(syntropic) system is always sustained by a convergent transfer of
information (negentropic process), and vice versa.

[8] I have adopted the term web in analogy with the Bohmian concept of
undivided whole, which Arthur M. Young calls wholeness (Wholeness is
inherent in the nature of action…. the parts are derived from the whole,
and not the whole from the parts. In other words, the whole exists before
the parts), a term which happily marries an expression dear to the Zen
master, Eihei Dōgen Zenji: Jin jippo ikka no myoju: The whole world in all
ten directions is one bright jewel).
[9] It may be superfluous to highlight the correspondence of the threefold
scheme poietic-function/syntropic-function/mnemotropic function with the
scheme bio-energetic function/neuro-sensorial function/psychoperceptive,
protocognitive, cognitive function. In this regard, it would be interesting
to question the intrinsic ontological meaning to be acknolwedged to the
physical relationship based respectively on one, two and three, in the
phenomenological context (cosmological, relativistic, quantum, ordinary).
The question that arises is the following: to what extent is it
anthropopoiesis that delineates the itineraries of phenomenological
becoming, and to what extent is it phenomenological becoming, moreover pre-
existing and subject to the biological phenomenon, that establishes the
itineraries of anthropopoiesis? Saying one becomes two, two becomes three
and out of the third comes the one as the fourth, an expression that has
stigmatized over one thousand years of the history of alchemy and that
rests on the universal archetypical relationship Earth-Man-Sky, are we
referring to the internal representation of external reality of whoever
formulated it, or are we referring to a universal physical relationship
that has conditioned this representation? The answer to this question will
never be definitive. What we can say is that whether one or another
hypothesis is true, there is no better vision of the World than one that
helps us live better. (C.G. Jung).
[10] General Relativity can be considered a relationship theory in which
the only relevant fact under the physical profile is the relationship
between different events in space-time.

[11] i.e.: The only physical part of a black hole (with his reversal white
hole) is the singularity. The other parts as the event-horizon are
mathematical boundaries. There is no physical barrier called an event-
horizon, but it marks the boundaries between types of space-time under the
influences of the singularity.
(Credit: http://burro.astr.cwru.edu/stu/advanced/stars_blackhole.html) In a
puramente purely mathematical vision of space-time according to which the
space-time continuum is none other than a mathematical continuum, it is
inevitable that there cannot be a physical barrier (boundary) called event-
horizon.

[12] See: Xi Yin, Dissecting Holography with Higher Spins, 2012:
http://www.gc.lpi.ru/proceedings/yin_pl.pdf

[13] We speak of a virtual dimension (and of virtual particles) as a
dimension (particle) not directly observable, but whose influence can be
felt and confirms the theoretical forecasts.

[14] The event-horizon is a (continuous) null surface in space-time. The
event-horizon is defined non-locally in time: it is a global property of
the entire space-time, and must be found in a separate post-processing
phase after (part of) the space-time has been numerically computed.
(Credit: Jonathan Thornburg, Event and Apparent Horizon Finders for 3 + 1
Numerical Relativity, 2006, http://arxiv.org/pdf/gr-qc/0512169v2.pdf)

[15] For definitions of image and image-making see footnote n° 50.

[16] The peculiarity of the fractal dimension is the fact that its temporal
and/or spatial structure is not characterized by a series of disc network
units (from 1 to 2, 2 to 3,etc.) nor is it composed of contiguous units
(1,2,3, etc): but is made up of measurable (deterministic) fractions
(fractal = fraction) of space and time interspersed without a break (in
continuum) by non-measurable (chaotic) interspace and intertime fractions.
On any scale considered, the chaotic part (non-measurable and
unpredictable) of the fractal realty we are part of is always to be found
in the intertime and interspace between the practicable (deterministic)
measurements we use to codify it.

[17] Following the holographic principle (proposed by Gerardus 't Hooft and
developed by Leonard Susskind and Juan Maldacena), the information (degrees
of freedom of the system) concerning what happens in a fractal region of
space-time should be codified (non-local correlations, entanglement) on the
confine or border or event-horizon of the region itself. The interactions
between relativistic dimension,quantum dimension,ordinary dimension occur
on these borderlines (zones of dimensional interfacing). The fundamental
space-time event-horizon would correspond to the Reflection Symmetry Line
or Mirror Symmetry Horizon generated by the transition from the N-EIRD
regime to the EIRD regime.
[18] As will be explained, the transition from the N-EIRD regime to the
EIRD regime is induced by the opposition of the N-EIRD to the breakdown in
tension symmetry provoked by the superluminal supraliminal auto-
reverberation of the dynamis/IT. In the EIRD regime this opposition
persists in the form of internal resistance which tends to keep the ambits
of manifestation (EIRD, RRD, QD, H-MD) restricted to their root, the
unmanifest or irreducibly implicated (N-EIRD). The ambits of manifestation
are governed by the auto-organization of a multi-dimensional chaotic system
(deterministic chaos) of relationships that contextualize and tend to
minimize the opposing tension generated by two opposing original tensions
(this pair of implicated tensions of opposing signs generates the torque of
the EIRD): a) the tension associated with becoming (tension/energheia),
according to which nothing-is-created-nothing-is-destroyed-everything-is-
transformed, triggered by the confinement process that generates the
unstable dimension endowed with EIRD structure and dynamics (the Born) and
b) the intrinsic internal resistance of the EIRD to its deliverance from
the isotropic, homogeneous, continuous, imperturbed regime of the N-EIRD
(the Non-Born).

[19] While classical physics is exceedingly useful for the description and
forecasting of simple linear dynamic systems, complex non-linear dynamic
systems characterized by significantly unpredictable and/or irreversible
and/or non-reproducible intrinsic behaviour, require a different conceptual
approach for their study. This approach has been developed by the science
of chaos and its theories, created precisely for the description and
explanation of non-linear dynamic complex phenomena such as natural ones,
including human benaviour and mental phenomena.

[20] Hysteresis is a non linear phenomenon that leads to the absorption and
registration by a system of a part, at times infinitesimal, of the effects
provoked by a given perturbative event applied to the system itself. The
phenomenon of absorption and registration of the variations in state
connected with the exposure to the perturbative event means that the
response of the system to a new perturbative event depends also to a
variable extent on the chronological history of all its variations in state
and all its previous reactions to the current exposure. It can be deduced
that the physical sizes relating to the perturbations applied are not
perfectly reversible (they have a non-linear pattern) and describe curves
known as hysteresis curves or cycles. In classical physics, the phenomenon
of hysteresis is only partially determined by the structure (gross and/or
fine) of matter. Quantum physics is accustoming us to turn our attention
not so much to the structure as the underlying relationships, not so much
to the composition as to the processes and systems of processes that can
modify the behaviour of a given material from the outside but also from the
inside. In quantum physics the phenomenon of hysteresis is determined by
the radiative relationships (ondulatory energy) and field relationships
(phase relationships) entertained by objects endowed with or devoid of
mass. On a nanometric scale (i.e. memristors) phase transitions (the
passage from one state/regime to another) and as a result the corresponding
hysteresis cycle does not occur linearly using the energy supplied or
absorbed but occurs on the basis of processes that are intrinsically non-
linear and irreversible. In biological phase transitions (autopoiesis) the
continuous sub-cellular-cellular-tissue-organ-system transitions never
occur linearly but always involve a degree of non-linear modification of
the system itself so that the phenomenon of hysteresis becomes an integral
part of the system's capacity for subsistence and not a limit! In
relativistic physics, quantum objects disappear leaving room for objects
that may be devoid of both mass and energy. In the relativistic context the
phenomenon of hysteresis assumes a central role in the genesis of both
space-time and the energy phenomenon. In this context the progress of the
hysteresis cycle met by the fractal/holographic objects that make up the
territory of space-time are described by the becoming of the relationship
between tension and torque, and the corresponding diagram is derived from
the variations revealed by the Twisted-Pinched Hysteresis Loop as in Fig.
1.

[21] An exciton is a quasi particle with whole spin (boson) whose
propagation occurs at high speed. In its interaction with a medium an
exciton emits a high energy potential in the from of photons (light, bio-
luminescence).
[22] A soliton or solitonic wave (examples of solitons are instantons,
monopoles, vortices) is a scalar or torsional or longitudinal particle wave
(flat wave) generated by a paor of waves (the wave and its anti-wave) that
are identical (replicants) spatially in phase but temporally out of phase
by 180°, whose diffusion,more similar to a field phenomenon than an
ondulatory phenomenon,occurs at reduced speed without loss of energy. On
interacting with a medium a soliton preserves its shape, speed, frequency
and impulse width, being able to vary its phase.

[23] A strange attractor (David Ruelle) is: a zone of time and/or space of
minimal dimensions assimilable to zero, around which is verified the
unpredictable temporal and/or spatial variability of a chaotic dynamic
phenomenon: the pole of the strange attractor is a temporal moment and/or a
spatial point of stability around which the dynamic of the chaotic
phenomenon orbits (deterministic chaos).
[24] See: Bharathwaj Muthuswamy, Leon O. Chua Simplest Chaotic Circuit,
2010, at:
http://myweb.msoe.edu/muthuswamy/pubs/SimplestChaoticCircuit.pdf;
Bharathwaj Muthuswamy Implementing Memristor Based Chaotic Circuits, 2009,
at:
http://myweb.msoe.edu/muthuswamy/pubs/ImplementingMemristorBasedChaoticCircu
its.pdf
[25] At any scale considered, the chaotic part (non-measurable and
unpredictable) of the physical reality we are part of is always to be found
in the intertime and interspace between the practicable (deterministic)
measurements we use to codify it. In this sense, the chaotic part is meta-
physical (psychism, C.G. Jung) and can only assume an unstable character.