11,359 research outputs found
Analysis of an attempt at detection of neutrons produced in a plasma discharge electrolytic cell
R. Faccini et al. \cite{Faccini:2013} have attempted a replication of an
earlier experiment by D. Cirillo et al. \cite{Cirillo:2012} in which neutrons
[as well as nuclear transmutations] were observed in a modified Mizuno cell. No
neutron production is observed in the recent experiment \cite{Faccini:2013} and
no evidence for microwave radiation or nuclear transmutations are reported. A
careful analysis shows major technical differences in the two experiments and
we explore the underlying reasons for the lack of any nuclear activity in the
newer experiment.Comment: 3 page
Space-Like Motions of Quantum Zero Mass Neutrinos
Recent experimental reports of super-luminal velocity neutrinos moving
between Geneva and Gran Sasso in no way contradict the special relativity
considerations of conventional quantum field theory. A neutrino exchanged
between Geneva and Gran Sasso is both virtual and space-like. The Lorentz
invariant space-like distance and the Lorentz invariant space-like four
momentum transfered between Geneva and Gran Sasso can be extracted
from experimental data as will be shown in this work.Comment: 4 pages 1 *.eps figur
Theories of Low Energy Nuclear Transmutations
Employing concrete examples from nuclear physics it is shown that low energy
nuclear reactions can and have been induced by all of the four fundamental
interactions (i) (stellar) gravitational, (ii) strong, (iii) electromagnetic
and (iv) weak. Differences are highlighted through the great diversity in the
rates and similarity through the nature of the nuclear reactions initiated by
each.Comment: 18 pages, 2 figure
Theory of Metallic Work Functions Between Metals and Layers of Exclusion Zone Ordered Water
The magnitude of the work function to bring an electron from a metal into the
exclusion zone water layer making hydrophilic contact with the metallic
interface is theoretically computed. The agreement with recent experimental
measurements is satisfactory
Marcus Electron Transfer Reactions with Bulk Metallic Catalysis
Electron transfer organic reaction rates are considered employing the classic
physical picture of Marcus wherein the heats of reaction are deposited as the
energy of low frequency mechanical oscillations of reconfigured molecular
positions. If such electron transfer chemical reaction events occur in the
neighborhood of metallic plates, then electrodynamic interface fields must also
be considered in addition to mechanical oscillations. Such electrodynamic
interfacial electric fields in principle strongly effect the chemical reaction
rates. The thermodynamic states of the metal are unchanged by the reaction
which implies that metallic plates are purely catalytic chemical agents.Comment: 6 pages, 3 figure
Weak Interaction Neutron Production Rates in Fully Ionized Plasmas
Employing the weak interaction reaction wherein a heavy electron is captured
by a proton to produce a neutron and a neutrino, the neutron production rate
for neutral hydrogen gases and for fully ionized plasmas is computed. Using the
Coulomb atomic bound state wave functions of a neutral hydrogen gas, our
production rate results are in agreement with recent estimates by Maiani {\it
et al}. Using Coulomb scattering state wave functions for the fully ionized
plasma, we find a substantially enhanced neutron production rate. The
scattering wave function should replace the bound state wave function for
estimates of the enhanced neutron production rate on water plasma drenched
cathodes of chemical cells.Comment: 2 pages no figure
Photo-Disintegration of the Iron Nucleus in Fractured Magnetite Rocks with Magnetostriction
There has been considerable interest in recent experiments on iron nuclear
disintegrations observed when rocks containing such nuclei are crushed and
fractured. The resulting nuclear transmutations are particularly strong for the
case of magnetite rocks, i.e. loadstones. We argue that the fission of the iron
nucleus is a consequence of photo-disintegration. The electro-strong coupling
between electromagnetic fields and nuclear giant dipole resonances are central
for producing observed nuclear reactions. The large electron energies produced
during the fracture of piezomagnetic rocks are closely analogous to the
previously discussed case of the fracture of piezoelectric rocks. In both cases
electro-weak interactions can produce neutrons and neutrinos from energetic
protons and electrons thus inducing nuclear transmutations. The electro-strong
condensed matter coupling discussed herein represents new many body collective
nuclear photo-disintegration effects.Comment: 6 pages two figure
Thermodynamic Equations of State for Dirac and Majorana Fermions
The thermodynamic equations of state for Majorana and Dirac fermions are
quite different even in the limit of zero mass. The corresponding equations are
derived from general principles, and then applied to neutrinos. The nature of
the approach to equilibrium is explored, along with the subtleties of low or
zero mass neutrinos interacting via purely left-handed currents. Possible
applications to cosmology, supernovae, and supersymmetry are discussed.Comment: plain LaTeX file, no figure
The Theoretical Power Law Exponent for Electron and Positron Cosmic Rays: A Comment on the Recent Letter of the AMS Collaboration
In a recent letter, the AMS collaboration reported the detailed and extensive
data concerning the distribution in energy of electron and positron cosmic
rays. A central result of the experimental work resides in the energy regime
wherein the power law exponent of the energy
distribution is measured to be . In virtue of
the Fermi statistics obeyed by electrons and positrons, a theoretical value was
predicted as in very good agreement with
experimental data. The consequences of this agreement between theory and
experiment concerning the sources of cosmic ray electrons and positrons are
briefly explored
Horizon Thermodynamics and Gravitational Tension
We consider the thermodynamics of a horizon surface from the viewpoint of the
vacuum tension . Numerically, Newton. In order of magnitude, this is the tension that has been
proposed for microscopic string models of gravity. However, after decades of
hard work on string theory models of gravity, there is no firm scientific
evidence that such models of gravity apply empirically. Our purpose is thereby
to discuss the gravitational tension in terms of the conventional Einstein
general theory of relativity that apparently does explain much and maybe all of
presently known experimental gravity data. The central result is that matter on
the horizon surface is bound by the entropy-area law by tension in the closely
analogous sense that the Wilson action-area law also describes a surface
confinement
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