CREATION THEORY and the demonstration of biotic patterns in quantum and cosmological time series

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CREATION THEORY and the demonstration of biotic
patterns in quantum and cosmological time
series H. Sabelli and L. Kovacevic
Chicago Center for Creative
Development Hector_Sabelli_at_rush.edu
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Two current models of evolution
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Evolution from simple to complex (not decay to
entropic disorder) Simple universal forms
Generating novel, unpredictable, complexity (not
entropic disorder) Complex contains the simple
(no ideas without energy and matter)
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GENERIC GENERATORS
Bourbaki the mother structures of all
mathematics are Lattice set with asymmetric
and transitive relation lt Group closed set with
rotation operation and opposition (inverse)
Topology flexible geometry (3 D)
transformation with continuity
Creation theory These 3 forms are the primary
processes at all levels of organization.
(Sabelli, Union of Opposites 1989 Bios, 2005)
Piaget Same fundamental structures in mental
development
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• GENERIC GENERATORS
• The mother structures of mathematics
• are embodied physically as action (energy
  time), information and spatial structure (matter)
• generate complex processes
• repeat fractally at each level of organization
• are represented in equations that generate bios
• At1 At g sin(At)

Feedback energy must be high
Opposition feedback must be bipolar
Next action
Previous action is conserved
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Pythagoras numerical forms
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GENERIC GENERATORS
Mathematical relations are certain and necessary

and therefore
universal and embodied in physical and mental
processes.
The mother structures of mathematics are 1.
Lattice (transitivity, asymmetry) 2. Group
(opposition, symmetry) 3. Topology (form,
transformation)

• They are physically embodied as
• Action (energy unidirectional time)
• information (2 values)
• Structure (3-D matter)

The same global processes occur at all levels of
organization generating novel, complex, diverse
and increasingly more local processes.
Mathematical certainty is more fundamental than
quantum uncertainty. Simple and complex
processes originate from simple deterministic
mathematical structures (cause), not from
maximally complex random change (chance).
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Action and opposition in natural processes
generate BIOS, an expansive chaotic pattern
that displays diversification, novelty and
non-random complexity, the hallmarks of
creation. BIOS can be demonstrated in
meteorological data, DNA, heartbeats, economic
data, And in subatomic and in cosmological
physical processes.
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Schrödinger equation

• The fundamental equation of physics generates
  series with biotic features of
• Diversification
• Novelty
• Arrangement
• Asymmetry
• Consecutive recurrence

In contrast to periodic and chaotic patterns
As expected in a deterministic, non-random pattern
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An electron wave packet confined in a
box Time-dependent Schrödinger equation for a
wavepacket representing an electron of average
energy 5 eV confined to a region of 1E-10m (
atomic dimensions).
?2
Boundaries
?2
Time
Time
Space
Initial Gaussian wavepacket
Space
Ripples
Causal (non-random) and creative quantum
mechanics when the wave packet hits a boundary,
it bounces and interferes with itself, generating
complex waves that show biotic features. Waves
show phenomena such as interference or
diffraction. Probabilities do not. ?2 is not a
probability.
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Time-dependent Schrödinger equation for a
wavepacket representing an electron of average
energy 5 eV confined to a region from x0 to
x1E-10m. Time is stepped in units of
dt(1E-16s). Program adapted from S. E. Koonin,
Computational Physics (1986). Time series at
the midpoint between barriers.
1 to 5,000 iterations
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Time-dependent Schrödinger equation for a
wavepacket representing an electron of average
energy 5 eV confined to a region from x0 to
x1E-10m. Time is stepped in units of
dt(1E-16s). Program adapted from S. E. Koonin,
Computational Physics (1986). Spatial series.
500 points
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Integration of the time-dependent Schrödinger for
the wavepacket of a quantum entity, using the
algorithm described by J.L. Richardson,
Visualizing quantum scattering on the CM-2
supercomputer, Computer Physics Communications 63
(1991) 84-94. Time series recorded at the fixed
point in space. Wave is bounded by two high
potential barriers of V2E.
1 to 2,000 iterations
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Integration of the time-dependent Schrödinger for
the wavepacket of a free quantum entity, using
the algorithm described by J.L. Richardson,
Visualizing quantum scattering on the CM-2
supercomputer, Computer Physics Communications 63
(1991) 84-94. Time series recorded at the top of
the wave packet.
1 to 10,000 iterations
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The distribution of galaxies along the Z (time
and space) axis shows partial autocorrelation,
indicating non-random causation (bios) rather
than random walk (Brownian).
LCRS Las Campanas Redshift survey Astrophysics
Journal (online) 470 172. http//arxiv.org/abs/as
tro-ph/9604167. 2dFGRS 2-degree Field Galaxy
Redshift Survey Colless, M. (1999).
http//arxiv.org/abs/astro-ph/9804079.
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Isometry analysis of the distribution of galaxies
along the Z (time and space) axis.
Non-random causation
Novelty
Complexity
Shuffled copy uniform distribution and more
recurrence (novelty).
Recurrence plot few recurrences clustered in
separate complexes
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Isometry analysis of the distribution of galaxies
along the Z (time and space) axis with two
different ways of generating the time series give
the same results.
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Isometry analysis of the distribution of galaxies
along the X axis shows bios at some intermediate
distances.
Non-random causation
Complexity
Novelty
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Cosmic Background Radiation novelty without
consecutive recurrence
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Features of creativity in fundamental processes
Diversi-fication Novelty Com-plexity Com-plexes Asym-metry
Schrödinger equation
Cosmic Background Radiation - Blurred
Time series of galaxies
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1. ACTION The universal (moving or transitive,
unidirectional or asymmetric, global) formed by
discrete units (quanta) Unidirectional time
Gravitation Thermodynamic irreversibility Pasteur
s discovery of biochemical asymmetry from which
he inferred the existence of a Cosmic
Asymmetry Other empirical asymmetries weak
force, optical rotation of atoms, non-equilibrium
states in open processes, preponderance of matter
over anti-matter, symmetry-breaking in cosmology,
violation of gauge symmetry by superfluids,
greater polarization of cosmic microwaves from
one direction of space, ionic asymmetry across
plasma membranes, brain asymmetry, social
asymmetries. Lattice order lt (transitive and
asymmetric) as fundamental mathematical structure
Biotic asymmetry (1) statistical distribution
of biotic series (2) Bios is generated at lower
value of the parameter when the recursion is made
asymmetric by adding a biasing factor q.
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2. OPPOSITION Sexual reproduction Rotation, from
quantum spin to galaxy clusters
Electromagnetic force Quantum qubit,
complementarity, Pauli principle Greek
Physiology, Chinese Taoism, German
Dialectics Chemical, biological, and economic
cooperation and competition Generational, Sex,
Class, and National cooperation and conflicts
Group theory (inverse opposition) Sympathetic
versus parasympathetic innervation of
organs Psychodynamics and conditioning
theory Thoms catastrophe theory Logistic
generator A(t) versus 1-A(t) unipolar
opposition Biotic generators bipolar feedback
via trigonometric function
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3. COLOR STRUCTURE A generic structure
consisting of triads of pairs of opposites
organizes natural and human structures at
multiple levels of integration, from matter to
concepts (Sabelli, Union of Opposites, 1989
Bios, 2005). Physical tridimensional
space Three attractors create chaos (Poincaré)
Period 3 implies all harmonies (Sarkovskiis
theorem) and chaos Quantum chromodynamics (Nambu
Greenberg) 3 colors of quarks and anti-quarks.
Three primary colors (Goethe, Young, Helmholtz,
Maxwell) with three complementary secondary
colors (Goethe, Hering) Triadic structure of
concepts and organizations. Color symbolism
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3. COLOR STRUCTURE Quantum chromodynamics strong
interactions that form the atomic nuclei show 3
colors and 3 anticolors. Three-colored quarks
form protons and neutrons with no net color by
interacting through gluons that carry a
color-anticolor pair.   Color symbolism
emotional (red passion, love and anger golden
ideals and yellow fear blue order police
uniform and depression) political (red
revolutionaries, nazi, communist, republican
yellow theocracies royal blue) Triadic
structure of Motivation pleasure, stimulation,
pain avoidance Learning cognitive, affective,
pragmatic (Torre) Concepts triadic categories
(Kant, Schelling, Hegel, Marx, Engels, Pierce),
triadic models of mind (Freud), Trinitarian
visions of God Social organization executive,
legislative, judicial branches of government.
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• Biotic feedback is a fundamental generator of
  complexity at multiple levels of organization
• Biotic patterns in physical, biological, and
  social processes
• Opposites (male/female, supply/demand,) in all
  processes
• Biotic feedback is a necessary consequence of
  action, opposition and conservation
• Biotic feedback (both cooperation and conflict)
  drive evolution and development in contrast to
  Darwinism, Marxism, standard economics and
  foreign policies that focus on conflict,
  competition, and war.