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[7] viXra:1005.0098 [pdf] submitted on 26 May 2010
Authors: Amrit S. Sorli
Comments: 11 page
According to the formalism d = v*t fourth dimension of space-time X4 = i*c*t is spatial
too. Time is not a fourth dimension of space-time. Material change i.e. motion run in a
timeless space. Fundamental unit of numeric order t0,t1,t2,...,tn of material change is Planck
time tp . We measure numeric order of material change with clocks. Material change tn-1 is
"before" material change tn equivalently as natural number n-1 is "before" natural
number n. Numeric order of material change runs in a timeless 4D space and has no
duration. Space-time is a timeless phenomenon.
Category: Quantum Physics
[6] viXra:1005.0094 [pdf] submitted on 11 Mar 2010
Authors: Gheorghe Niculescu
Comments: 2 pages
In this paper one presents four of the smarandacheian paradoxes in physics
found in various physics sites or printed material.
Category: Quantum Physics
[5] viXra:1005.0093 [pdf] submitted on 11 Mar 2010
Authors: Leonardo F. D. da Motta
Comments: 5 pages
In 1972, Smarandache proposed that there is not a limit speed on the
nature, based on the EPR-Bell (Einstein, Podolsky, Rosen, Bell) paradox. Although it
appears that this paradox was solved recently, there are many other evidences that guide
us to believe that Smarandache Hypothesis is right on quantum mechanics and even on
the new unification theories. If Smarandache Hypothesis turns to be right under any
circumstance, some concepts of modern physics would have to be "refit" to agree with
Smarandache Hypothesis. Moreover, when the meaning of Smarandache Hypothesis
become completely understood, a revolution on technology, specially in communication,
will arise.
Category: Quantum Physics
[4] viXra:1005.0073 [pdf] replaced on 24 May 2010
Authors: Amrit S. Sorli
Comments: 2 pages
Constancy of the light velocity in different inertial systems and areas of space with different
gravity implies that relativistic effects of relative velocity of material change start on the scale
above photon.
Category: Quantum Physics
[3] viXra:1005.0043 [pdf] submitted on 12 May 2010
Authors: V.A.Induchoodan Menon
Comments: 21 pages
The author discusses the similarity between the expression for the state
function of the primary gas representing a particle and that of the wave function.
It is observed that the only difference between these two expressions is that in
the former time appears as a real function while in the latter it appears as an
imaginary function. He shows that the primary gas approach which treats time
as a real and the quantum mechanical approach which treats time as imaginary
are two ways of representing the same reality and points to a new symmetry
called the Wick symmetry. He shows that the probability postulate of quantum
mechanics can be understood in a very simple and natural manner based on the
primary gas representation of the particle. It is shown that the zero point energy
of the quantum mechanics is nothing but the energy of the thermal bath formed
by the vacuum fluctuations in the Higgs field. He shows that the quantum
mechanics is nothing but the thermodynamics of the primary gas where time has
not lost its directional symmetry.
Category: Quantum Physics
[2] viXra:1005.0033 [pdf] submitted on 11 May 2010
Authors: Steven Kenneth Kauffmann
Comments: 12 pages, Also archived as arXiv:1005.1101 [physics.gen-ph]
For Abelian gauge theory a properly relativistic gauge is developed by supplementing the Lorentz condition
with causal determination of the time component of the four-vector potential by retarded Coulomb
transformation of the charge density. This causal Lorentz gauge agrees with the Coulomb gauge for static
charge densities, but allows the four-vector potential to have a longitudinal component that is determined
by the time derivative of the four-vector potential's time component. Just as in Coulomb gauge, the two
transverse components of the four-vector potential are its sole dynamical part. The four-vector potential
in this gauge covariantly separates into a dynamical transverse four-vector potential and a nondynamical
timelike/longitudinal four-vector potential, where each of these two satisfies the Lorentz condition. In
fact, analogous partition of the conserved four-current shows each to satisfy a Lorentz-condition Maxwellequation
system with its own conserved four-current. Because of this complete separation, either of these
four-vector potentials can be tinkered with without affecting its counterpart. Since it satisfies the Lorentz
condition, the nondynamical four-vector potential times a constant with dimension of inverse length squared
is itself a conserved four-current, and so can be fed back into its own source current, which transforms its
time component into an extended Yukawa, with both exponentially decaying and exponentially growing
components. The latter might be the mechanism of quark-gluon confinement: in non-Abelian color gauge
theory the Yukawa mixture ratio ought to be tied to color, with palpable consequences for "colorful" hot
quark-gluon plasmas.
Category: Quantum Physics
[1] viXra:1005.0015 [pdf] submitted on 4 May 2010
Authors: Gary Heen
Comments: 8 pages
It is suggested in this paper that space-time and matter are both derived from a common
entity, the quantum mass unit. A 10-dimensional and 11-dimensional duality model of the
quantum mass unit is presented diagrammatically, and a mathematical argument is put forth
indicating how energetic photons interact with space-time, converting space-time into virtual
particle pairs of matter and anti-matter.
Category: Quantum Physics
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