Superconductivity, be it at near the zero point, or high temperature manipulations
with heat, magnetism, or "the quantum criticality of electrons" all
abide by the precisely measurable quantity C radius along a sine wave pattern,
each with their distinguishing effects. Light, the quantity C, the radius of
curvature of all natural law is the concrete fundamental ruler defining our
observable universe of space time mass matter energy gravity – and every
concept, derivative and spin in between (of necessity, each converted to their equivalent
energy differentials) – not one which stands alone, all factors totally
integrated with each other, where a change to one brings about changes to the
others – not the least are the isolated factors of ‘dimensions/size’, i.e., found at the macro,
meso, micro, dimensions.
'Totally Unexpected'
Physics - A Powerful Blend of Magnetism and Light “ ……..a newly discovered type of 'charge
density wave.' This wave does not have the oscillating motion of a light wave
or a sound wave; it describes a static, ordered arrangement of clumps of
electrons in a superconducting material. Its coexistence with superconductivity
is perplexing to researchers because it seems to conflict with the freely
moving electron pairs that define superconductivity.
Basic fundamentals of light, the
quantity C
- · The quantity C (velocity of light) is the radius of curvature of
all natural law, the pivotal point upon which the natural laws become manifest,
the kinetic energy equivalent of the mass energy of matter.
- ·
The
Quantity C as the radius of curvature of all natural law stipulates that if a
differential of energy equal to this quantity exists between the observer and the point which he is observing, the natural laws will be suspended. If
the energy differential is in excess of the quantity C, the laws will appear to
operate in reverse at that point
- ·
Least
one forget, when a frequency differential equal to 9x10(20) ergs per gram,
which also represents the quantity C, exists between the observer and the point
which he is observing, (the effect magnified at close proximity, basically zeroing out distance and time) we again find
that the natural laws at the observed point reach zero value with respect to
the observer. If the frequency differential exceeds this value, the action of
the laws will become negative. The natural laws are not absolute, but relative.
The size and shape of the curve of one law is dependent upon the value and
position of the others.
A
magnet levitating above a cuprate high temperature superconductor. New findings
from an international collaboration led by Canadian scientists may eventually
lead to a theory of how superconductivity initiates at the atomic level, a key
step in understanding how to harness the potential of materials that could
provide lossless energy storage, levitating trains and ultra-fast
supercomputers. Credit: Robert Hill/University of Waterloo
Their results,
published today in the prestigious journal Science, present the
most direct experimental evidence to date of electronic nematicity as a
universal feature in cuprate high-temperature
superconductors. "In this study, we identify some unexpected alignment
of the electrons - a finding that is likely generic to the high temperature
superconductors and in time may turn out be a key ingredient of the
problem," said Professor Hawthorn.
Rice
University physicist and study co-author Qimiao Si said the research provides
further evidence that unconventional
superconductivity arises from "quantum criticality."
"There
is already compelling evidence that unconventional superconductivity is linked
in both copper-based and iron-based high-temperature superconductors to quantum
fluctuations that alter the magnetic order of the materials at 'quantum
critical points,' watershed thresholds that mark the transition from one
quantum phase to another," Si said. "This work provides the first
evidence that similar processes bring about superconductivity in the canonical
heavy-fermion system YRS."
Electrons
fall within a quantum category called fermions. Heavy fermions are composite
materials that contain rare earth elements. Their name stems from the fact that
at extremely low temperatures, typically less than 1 kelvin, electrons move
through the material as if they were 1,000 times more massive than normal. In
the latest experiments, Si said, the measured heat capacity was so large that
the electrons behaved as if they were heavier still—about 1 million times
heavier than normal. This occurred as the YRS was cooled to just above the
point of superconductivity, around 2 millikelvins.
Isolation
and separateness of the natural laws will not get us past the following preliminary and elementary concepts
of field applications.
Let
us integrate the fundamental basics across distance and time with the unifying
radius of curvature, Light, the quantity C, so as to at least advance past the
700 year old ‘rocket’ concept and move into more adult like perceptions of reality. The traffic nightmare pic below in no way resembles intelligence in any shape or form in the 'transportation' category.
The far more fundamental and simpler definitions of space time mass matter energy gravity become mandatory:
....