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There has not been a scientific revolution for about 100 years. One
seems imminent, as QED has recently been violated at the Sigma-6
level. Kuhn, in 'The Structure of Scientific Revolutions', used
Wittgenstein's famous duck-rabbit optical illusion to demonstrate
how bias in interpretation causes scientists to see the same
information in radically different manners, which is likely to have
delayed the pending paradigm shift. Jean-Pierre Vigier, continually
labeled l'heretique de la physique and l'eternel resistant in
French media, remains a pillar of modern mathematical physics.
'Heretical' works of Vigier related to extended electromagnetic
theory incorporating photon mass and a longitudinal B(3) EM field,
gravity, quantum theory, large-scale additional dimensions, the
Dirac polarized vacuum and many more related issues are deemed by
his followers to be essential to the evolution of physics. The
phrase 'Lives On' was chosen in the title of this volume to claim
ignored portions of his work are relevant to implementing the
Paradigm Shift to an Einsteinian Unified Field Theory.
Specifically, chapters about the Dirac Hypertube, Tight-Bound
States and Spacetime programming provide required insights into
crossing the dimensional barrier and 'proving' parts of M-Theoretic
dimensionality. As happens periodically in the history of science,
we live in a climate where coloring outside-the-box can have severe
myopic consequences such as difficulties in passing PhD exams,
challenges in grant approval or problems in receiving tenure. Since
there is no conflict with Gauge Theory, once realized, many
chapters in this important volume will aid in facilitating progress
in physics beyond the Standard Model.
Jean-Pierre Vigier continually labeled one of les heretiques de la
science, l'eternel resistant et le patriarche is yet a pillar of
modern physics and mathematics, with one leg firmly planted in
theory and the other in empiricism spanning a career of nearly 60
years with a publication vitae quickly approaching 400! He wrote of
his mentor Louis de Broglie "Great physicists fight great battles",
which perhaps applies even more so to 1 Jean-Pierre Vigier himself
. If fortune allows a visit to Paris, reported to be the city of
love, and certainly one of the most beautiful and interesting
cities in the world; one has been treated to a visual and cultural
feast. For example a leisurely stroll from the Musee du Louvre
along the Champs-Elysees to the Arc de Triomphe would instill even
the least creative soul with the entelechies of a poets muse. It is
perhaps open to theoretical interpretation, but if causal
conditions have allowed one to be a physicist, visiting Paris, one
may have taken opportunity to visit the portion of the old Latin
quarter in place Jussieu where Pierre et Marie Curie Universite,
reported to be 'the best university in France', is stationed.
This volume, recording the 10th international symposium honoring
noted French mathematical physicist Jean-Pierre Vigier surveys and
continues to develop Unified Field Mechanics (UFM) from the
perspective of Multiverse cosmology and Topological Field Theory.
UFM represents a developing paradigm shift with many new parameters
extending the Standard Model to a 3rd regime of Natural Science
beyond Quantum Mechanics. UFM is now experimentally testable, thus
putatively able to demonstrate the existence of large-scale
additional dimensionality (LSXD), test for QED violating phenomena
and surmount the quantum uncertainty principle leading to a new
'Age of Discovery' paling all prior ages in the historical
progression: Classical Mechanics (3D) to Quantum Mechanics (4D) and
now to the birth of the 3rd regime of UFM in additional
dimensionality correlating with M-Theory. Many still consider the
Planck-scale as the 'basement of reality'. This could only be
considered true under the limitations of the Standard Model. As we
methodically enter the new regime a profound understanding of the
multiverse and additional dimensionality beckons.
This breakthrough volume touts having dissolved the remaining
barriers to implementing Bulk Universal Quantum Computing (UQC),
and as such most likely describes the most advanced QC development
platform. Numerous books, hundreds of patents, thousands of papers
and a Googolplex of considerations fill the pantheon of QC R&D.
Of late QC mathemagicians claim QCs already exist; but by what
chimeric definition. Does flipping a few qubits in a logic gate
without an algorithm qualify as quantum computing? In physics,
theory bears little weight without rigorous experimental
confirmation, less if new, radical or a paradigm shift. This volume
develops quantum computing based on '3rd regime' physics of Unified
Field Mechanics (UFM). What distinguishes this work from a myriad
of other avenues to UQC under study? Virtually all R&D paths
struggle with technology and decoherence. If highly favored
room-sized cryogenically cooled QCs ever become successful, they
would be reminiscent of the city block-sized Eniac computer of
1946. The QC prototype proposed herein is room temperature and
tabletop. It is dramatically different in that it is not confined
to the limitations of quantum mechanics; since it is based on
principles of UFM the Uncertainty Principle and Decoherence no
longer apply. Thus this QC model could be implemented on any other
quantum platform!
Unified Field Mechanics, the topic of the 9th international
symposium honoring noted French mathematical physicist Jean-Pierre
Vigier cannot be considered highly speculative as a myopic critic
might surmise. The 8th Vigier Symposium proceedings 'The Physics of
Reality' should in fact be touted as a companion volume because of
its dramatic theoretical Field Mechanics in additional
dimensionality. Many still consider the Planck-scale zero-point
field stochastic quantum foam as the 'basement of reality'. This
could only be considered true under the limitations of the
Copenhagen interpretation of quantum theory. As we enter the next
regime of Unified Field Mechanics we now know that the
energy-dependent Einstein-Minkowski manifold called spacetime has a
finite radius beyond which a large-scale multiverse beckons. So far
a battery of 14 experiments has been designed to falsify the model.
When the 1st is successfully performed, a revolution in Natural
Science will occur! This volume strengthens and expands the
theoretical and experimental basis for that immanent new age.
A truly Galilean-class volume, this book introduces a new method in
theory formation, completing the tools of epistemology. It covers a
broad spectrum of theoretical and mathematical physics by
researchers from over 20 nations from four continents. Like Vigier
himself, the Vigier symposia are noted for addressing avant-garde,
cutting-edge topics in contemporary physics. Among the six
proceedings honoring J.-P. Vigier, this is perhaps the most
exciting one as several important breakthroughs are introduced for
the first time. The most interesting breakthrough in view of the
recent NIST experimental violations of QED is a continuation of the
pioneering work by Vigier on tight bound states in hydrogen. The
new experimental protocol described not only promises empirical
proof of large-scale extra dimensions in conjunction with avenues
for testing string theory, but also implies the birth of the field
of unified field mechanics, ushering in a new age of discovery.
Work on quantum computing redefines the qubit in a manner that the
uncertainty principle may be routinely violated. Other
breakthroughs occur in the utility of quaternion algebra in
extending our understanding of the nature of the fermionic
singularity or point particle. There are several other discoveries
of equal magnitude, making this volume a must-have acquisition for
the library of any serious forward-looking researchers.
The Maxwell, Einstein, Schr dinger and Dirac equations are
considered the most important equations in all of physics. This
volume aims to provide new eight- and twelve-dimensional complex
solutions to these equations for the first time in order to reveal
their richness and continued importance for advancing fundamental
Physics. If M-Theory is to keep its promise of defining the
ultimate structure of matter and spacetime, it is only through the
topological configurations of additional dimensionality (or degrees
of freedom) that this will be possible. Stretching the exploration
of complex space through all of the main equations of Physics
should help tighten the noose on "the" fundamental theory. This
kind of exploration of higher dimensional spacetime has for the
most part been neglected by M-theorists and physicists in general
and is taken to its penultimate form here.
Every hundred years or so, a unique groundbreaking Copernican class
volume arises unexpectedly. From ashes long thought cold of
Einstein's static universe model, for the first time technically
viable alternative interpretations to all pillars of Big Bang
cosmology are presented in the context of a profound new
'continuous-state' cosmological paradigm able to elucidate many
contemporary problems plaguing the standard model of particle
physics. The cosmology provides an alternative derivation of the
string/brane tension formalism derived from large-scale additional
dimensions that leads to a putative unique background-independent
string vacuum without requiring the Higgs mechanism or SUSY
superpartners. Breakthroughs presented, arising from the broad
spectrum of explanatory power, include an empirical protocol for
violation of the quantum uncertainty principle that provides a
viable model for the implementation of universal bulk quantum
computing. Other developments naturally arising from utility of the
new regime include a design for constructing de Broglie-type
matter-wave projectile defense shields with far-reaching
consequences.
Jean-Pierre Vigier continually labeled one of les heretiques de la
science, l'eternel resistant et le patriarche is yet a pillar of
modern physics and mathematics, with one leg firmly planted in
theory and the other in empiricism spanning a career of nearly 60
years with a publication vitae quickly approaching 400! He wrote of
his mentor Louis de Broglie "Great physicists fight great battles",
which perhaps applies even more so to 1 Jean-Pierre Vigier himself
. If fortune allows a visit to Paris, reported to be the city of
love, and certainly one of the most beautiful and interesting
cities in the world; one has been treated to a visual and cultural
feast. For example a leisurely stroll from the Musee du Louvre
along the Champs-Elysees to the Arc de Triomphe would instill even
the least creative soul with the entelechies of a poets muse. It is
perhaps open to theoretical interpretation, but if causal
conditions have allowed one to be a physicist, visiting Paris, one
may have taken opportunity to visit the portion of the old Latin
quarter in place Jussieu where Pierre et Marie Curie Universite,
reported to be 'the best university in France', is stationed.
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