As current
scientific probes reach further into the nanosphere and micro to meso
applications, we note the below processes and interactions run fundamental
throughout.
Micro Polarization,
frequencies, oscillations, resonance, spin, subwavelenghts, substitutions/conversions,
Spintronics, Spin-polarized
currents.
....... all the above participants are responsible for creating changes in the condition or position of objects or points of reference or transmuting one form of energy to another (the term ENERGY expresses as space time mass matter gravity/FIELDS) – includes and comprises all the ‘spooky’ stuff …. action at a distance, entanglement, non-locality, the uncertainty principle, simultaneity errors, wave particle duality, dark and antimatter, and so many world theories, etcetera and etcetera …..as well as the minus component of the sine wave, meaning if a differential of
energy equal to the quantity C 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.
Strikingly standing out, we note a severe
deficiency of space and time definitions and perceptions, lacking common
conversion units (as energy differentials) – WITH NO CONCEPT OR THOUGHT YET OF THE EXTENDED
BOUNDARIES OF E=MC2, which framework and reveal the CURVE of all natural law,
the matter to energy conversion unit – the quantity C - the Radius of Curvature
of all Natural Law, defining the mathematical micro, meso, macro interactions
and relationships of each, and to one another.
A review
of The simple building blocks – ‘all in the family’ and close relatives –
temperature, pressure, heat, escape velocity and solids, liquids, gases……………may
assist one to dig deeper into E=MC2 and open doors to the multitude of
predictable and measurable changes that occur – to the natural laws (of space
time mass matter energy gravity) as energy levels between specified reference
points vary along a sine wave (+/-) pattern of radius C.
Recognition dawning yet?
“"This
work demonstrates that ultra-high static pressures can force the core electrons
to interplay," explains Dubrovinsky. "The ability to affect the core
electrons even in such incompressible metals as osmium in static high-pressure
experiments opens up exciting opportunities in searching for new states of
matter."
”At the resonance, the particle acts as a
funnel, which "grabs" the electromagnetic wave's energy from the
external environment and converts it into the energy of the electronic gas
oscillations. This process can be accompanied with a wide range of very
interesting effects that, in principle, could be employed in various
applications. "If we use the language of quantum physics while speaking
about the plasmon excitation, we can say that a quantum of light, photon is
converted into a quantum of plasmon oscillations.”
Record high pressure squeezes secrets out of osmiumby Staff WritersBayreuth, Germany (SPX) Aug 25, 2015
illustration only |
An international team of scientists led by the University of Bayreuth and with participation of DESY has created the highest static pressure ever achieved in a lab: Using a special high pressure device, the researchers investigated the behaviour of the metal osmium at pressures of up to 770 Gigapascals (GPa) - more than twice the pressure in the inner core of the Earth, and about 130 Gigapascals higher than the previous world record set by members of the same team.
Surprisingly, osmium does not change its crystal structure even at the highest pressures, but the core electrons of the atoms come so close to each other that they can interact - contrary to what is usually known in chemistry.
'Magic' sphere for information transferby Staff WritersMoscow, Russia (SPX) Aug 25, 2015
A little light interaction leaves quantum physicists beamingby Staff WritersToronto, Canada (SPX) Aug 25, 2015
Surprisingly, osmium does not change its crystal structure even at the highest pressures, but the core electrons of the atoms come so close to each other that they can interact - contrary to what is usually known in chemistry.
'Magic' sphere for information transferby Staff WritersMoscow, Russia (SPX) Aug 25, 2015
Spheres from experiments have sizes like 1-euro and 10-russian rubles coins. |
In several years - maybe in one or two decades, but maybe sooner or never - one of the existing problems will be solved in an original way: our computers, nanoantennas and other kinds of equipment will operate on the base of photons, rather than electrons. Even now we are practically prepared to accomplish this switch.
If it happens, the spheres studied by an international group of Russian, French and Spanish scientists will definitely be able to become one of the elementary components of new photonic devices. The results of the study were published in the latest issue of "Scientific Reports," which is a part of the prestigious Nature Publishing Group.
If it happens, the spheres studied by an international group of Russian, French and Spanish scientists will definitely be able to become one of the elementary components of new photonic devices. The results of the study were published in the latest issue of "Scientific Reports," which is a part of the prestigious Nature Publishing Group.
A little light interaction leaves quantum physicists beamingby Staff WritersToronto, Canada (SPX) Aug 25, 2015
illustration only |
A team of physicists at the University of Toronto (U of T) have taken a step toward making the essential building block of quantum computers out of pure light. Their advance, described in a paper published this week in Nature Physics, has to do with a specific part of computer circuitry known as a "logic gate."
Logic gates perform operations on input data to create new outputs. In classical computers, logic gates take the form of diodes or transistors. But quantum computer components are made from individual atoms and subatomic particles. Information processing happens when the particles interact with one another according to the strange laws of quantum physics.
Quantum diffraction at a breath of nothingby Staff WritersVienna, Austria (SPX) Aug 27, 2015
Logic gates perform operations on input data to create new outputs. In classical computers, logic gates take the form of diodes or transistors. But quantum computer components are made from individual atoms and subatomic particles. Information processing happens when the particles interact with one another according to the strange laws of quantum physics.
Quantum diffraction at a breath of nothingby Staff WritersVienna, Austria (SPX) Aug 27, 2015
Modern fabrication methods allow to make atomically thin nanomasks which prove to be sufficiently robust for experiments in molecular quantum optics. Image courtesy Quantennanophysik, Fakultat fur Physik, Universitat Wien; Bild-Design: Christian Knobloch. For a larger version of this image please go here. |
The quantum mechanical wave nature of matter is the basis for a number of modern technologies like high resolution electron microscopy, neutron-based studies on solid state materials or highly sensitive inertial sensors working with atoms. The research in the group around Prof. Markus Arndt at the University of Vienna is focused on how one can extend such technologies to large molecules and cluster.
In order to demonstrate the quantum mechanical nature of a massive object it has to be delocalized first. This is achieved by virtue of Heisenberg's uncertainty relation: If molecules are emitted from a point-like source, they start to 'forget' their position after a while and delocalize. If you place a grating into their way, they cannot know, not even in principle, through which slit they are flying.
A new way to detect ortho-para conversion in water
by Staff WritersSouthampton, UK (SPX) Aug 27, 2015
In order to demonstrate the quantum mechanical nature of a massive object it has to be delocalized first. This is achieved by virtue of Heisenberg's uncertainty relation: If molecules are emitted from a point-like source, they start to 'forget' their position after a while and delocalize. If you place a grating into their way, they cannot know, not even in principle, through which slit they are flying.
A new way to detect ortho-para conversion in water
by Staff WritersSouthampton, UK (SPX) Aug 27, 2015
This is supramolecular endofullerene H2O@C60. Image courtesy University of Southampton. For a larger version of this image please go here. |
New research by scientists from the University of Southampton has found that water molecules react differently to electric fields, which could provide a new way to study spin isomers at the single-molecule level.
Water molecules exist in two forms or 'isomers', ortho and para, that have different nuclear spin states. In ortho-water, the nuclear spins are parallel to one another, and in para water, the spins are antiparallel. The conversion of ortho water into para-water and vice-versa is relevant to a broad range of scientific fields from nuclear magnetic resonance (NMR) to astrophysics
================================ IN SUMMARY, THE EXTENDED VIEW
Water molecules exist in two forms or 'isomers', ortho and para, that have different nuclear spin states. In ortho-water, the nuclear spins are parallel to one another, and in para water, the spins are antiparallel. The conversion of ortho water into para-water and vice-versa is relevant to a broad range of scientific fields from nuclear magnetic resonance (NMR) to astrophysics
================================ IN SUMMARY, THE EXTENDED VIEW
Radius of Curvature of all Natural Law:
- The Quantity C: Possessing a Significance Far Greater than Attributed
- Gravity – As Viewed Through the Radius (VC)
- Space as Observed through the Curve of Radius Light
- Matter and Mass – Quantum Gravity and the Holographic Mass
- Beyond A Uni-Dimensional Perception of TIME
- The Nonlinearity of Physical Law
- Definition
Wow this is a really important revolution!! I didn't think about it but the endofullerene is really important nanomaterial that could change a lot of things in the future. Thanks for providing this interesting information.
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