https://www.nature.com/articles/s41586-021-04015-y
So when we rotate the eyes with the eyes closed this causes the biophoton laser spirit energy internally to create a Lorentz body force thrust energy.
The "plasma" is from the potassium sodium ratio just as iodine is now proven a worthy plasma source.
https://arstechnica.com/science/2021/11/new-iodine-based-plasma-thruster-tested-in-orbit/
The iodine-replete healthy adult has about 15–20 mg of iodine, 70%–80% of which is contained in the thyroid [6].
iodine will readily form a purple gas when heated. At lower pressures, it'll g
Potassium iodide (KI) is the same form of iodine used to iodize table salt. KI floods the thyroid with iodine, thus preventing radioactive iodine from being absorbed.
Again, KI will only help reduce the effects of radioiodine taken into the body and not from other radionuclides.
The only possible sources of large radioiodine releases are from a nuclear weapons denotation and a catastrophic accident in an operating nuclear reactor. Therefore, KI has no protective value from a "dirty bomb" or a dispersion of spent nuclear fuel.
In the last several years the Nuclear Regulatory Commission (NRC), the Federal Emergency Management Agency, and the Environmental Protection Agency have written and released recommendations and reports on the use of KI in emergency situations. In December 2001, the NRC sent a letter to states informing them that if they wanted, and if they met certain conditions in their emergency-response planning, the NRC would provide stockpiles of KI for populations within 10 miles of a nuclear power plant. As of May 2002, 13 states have either requested or received KI supplies.
It's a relativistic speed:
The ions end up being expelled at speeds that can be an order of magnitude higher than a chemical propellant can produce.
A chemical rocket tops out at around five kilometers per second (1.86 miles/sec), while a Hall thruster can reach speeds of up to 40 kilometers per second (25 miles/sec). This kind of increase is particularly relevant to long-distance space travel, like a prospective voyage to Mars. In fact, project team leaders project that ion propulsion technology such as this could take humans to the Red Planet within the next 20 years.
Can get to the Moon in 30 minutes!!
https://futurism.com/nasas-new-ion-thruster-breaks-records-could-take-humans-to-mars
https://earthweb.ess.washington.edu/space-propulsion/files/Thesis.pdf
But a problem with metamaterials is that they typically contain metals that absorb energy from light and convert it into heat. As a result, part of the optical signal gets wasted, lowering the efficiency.
So by turning our laser biophoton spirit energy "around" and focusing it back onto the metamaterials of the microtubule-tublin in our neurons then we create the internal tummo heat!
https://phys.org/news/2017-02-lossless-metamaterial-boost-efficiency-lasers.html
The first stage in PPT operation involves an arc of electricity passing through the fuel, causing ablation and sublimation of the fuel. The heat generated by this arc causes the resultant gas to turn into plasma, thereby creating a charged gas cloud. Due to the force of the ablation, the plasma is propelled at low speed between two charged plates (an anode and cathode). Since the plasma is charged, the fuel effectively completes the circuit between the two plates, allowing a current to flow through the plasma. This flow of electrons generates a strong electromagnetic field which then exerts a Lorentz force on the plasma, accelerating the plasma out of the PPT exhaust at high velocity.[1] Its mode of operation is similar to a railgun. The pulsing occurs due to the time needed to recharge the plates following each burst of fuel, and the time between each arc. The frequency of pulsing is normally very high and so it generates an almost continuous and smooth thrust. While the thrust is very low, a PPT can operate continuously for extended periods of time, yielding a large final speed.
https://en.wikipedia.org/wiki/Pulsed_plasma_thruster
So this is what Andrija Puharich called the Psi-Plasma. The water via the pressure on the ionized microtubule then splits into proton and electron with a nonlocal proton "magnetic moment" plasma that is powered by the virtual photons.
So the pressure of the human body is slightly greater than the pressure of the atmosphere but not enough to have any major impact.
Turns out the grape is about 1/10 of the microwave frequency and the refractive index of the grape at microwave frequencies might be as much as ten. A whole grape can get all the microwaves trapped inside, but two grapes — or two halves — that touch create fields strong enough to ionize the air.
The pineal gland is about the size of a grape!!
The pineal gland is ionized through the blood flood converting into cerebrospinal fluid as the plasma charge....
The results include observations made from high-speed cameras, spectroscopy, and more. The plasma is mostly from potassium and sodium, apparently,
Boom.
Psi-Plasma - just as Puharich claimed.
https://hackaday.com/2019/03/01/grape-plasma-explained/
The size of the grape matters, but it isn’t super critical because of the water content of the grape. Turns out it doesn’t even have to be a grape — hydrogel beads work, too.
So there is a standing wave resonant mode INSIDE the pineal gland with the amplitude highest in the center - and when it splits open - it's the resonance between it and creates an ion....
The ion is potassium and sodium!
The grapes heat from the inside out....
Or I mean pineal gland - the water absorbs microwaves...
Ed Fouche - UFOs and plasma balls
- Superconducting Magnet Facility for Plasma Physics Research
https://ntrs.nasa.gov/api/citations/19650027296/downloads/19650027296.pdf
Realization of effective non-equilibrium ionization in low-temperature
and partially- ionized plasma is one of the most important problems in
direct energy conversion systems. The Klein effect, a new method of
direct energy conversion to electricity, shows that collisions of the
second kind, between electrons and excited atoms and molecules present
in plasma, are vital in keeping the electron temperature much higher
than the corresponding neutral particle and ion temperature in the
working gas. This is of interest with direct energy conversion where
fission reactors are the heat source, as excited atoms or molecules are
produced by the various radiations and fission fragments. A closed cycle
system, using either mercury vapour or argon was used for investigation
of the fundamental aspects of the Klein effect, especially as it
affects behaviour in the nozzle and in the regions around the
electrodes. Application of the Klein effect to non reactor-bound systems
was also considered. The mercury vapour circuit consisted of a boiler
and superheater, a duct section comprising a nozzle and the electrodes
in a magnetic field, a condenser connected to a vacuum system, and the
return feed to the boiler. The mercury vapour was ionized by using
either an i.f. oscillator, a d.c. discharge or electron bombardment. The
behaviour and relaxation lengths of excited atoms under various
operating conditions and the dependence on the energy of the bombarding
electron beam were investigated. The experiments with the argon plasma
jet in a stainless steel duct involved measurements of the temperatures
of the gas (modified resonance reversal method) and electrons (double
probe method) to explain the behaviour of the excited atoms. Some
anomalies were found. (author) Nov 15, 1966
Product Type:
Conference
Report Number:
IAEA-SM-74/249
Resource Relation:
Conference: Symposium on magnetohydrodynamic electrical power
generation, Salzburg (Austria), 4-8 Jul 1966; Other Information: 9
refs., 13 figs., 2 tabs.; Related Information: In: Electricity from MHD.
Vol. II. Proceedings of a Symposium on Magnetohydrodynamic Electrical Power Generation| 1180 p.
https://inis.iaea.org/collection/NCLCollectionStore/_Public/44/070/44070773.pdf?r=1
[BOOK] AN INVESTIGATION OF THE MAGNETIC EFFECTS OF ROTATING SUPERCONDUCTORS
CA King Jr - 1965 - search.proquest.com… of superconductivity began in 1911 when Kammerlingh Onnes'*' found that the resistance
of mercury … This new property he called "superconductivity" and the temperature at which it …
https://apps.dtic.mil/sti/citations/AD0657376
The Technological Implications of Superconductivity in the Next Decade
DN Langenberg - The Science and Technology of Superconductivity, 1973 - Springer… The period is the flux quantum.
Quantum transduction of optical photons from a superconducting qubit
Likewise, coherent microwave-to-optical conversion of single photons would enable the exchange of quantum states between remotely connected superconducting quantum processors, a promising quantum computing hardware platform. Despite the prospects of quantum networking, maintaining the fragile quantum state in such a conversion process with superconducting qubits has remained elusive. Here we demonstrate the conversion of a microwave-frequency excitation of a superconducting transmon qubit into an optical photon. We achieve this using an intermediary nanomechanical resonator which converts the electrical excitation of the qubit into a single phonon by means of a piezoelectric interaction, and subsequently converts the phonon to an optical photon via radiation pressure. We demonstrate optical photon generation from the qubit with a signal-to-noise greater than unity by recording quantum Rabi oscillations of the qubit through single-photon detection of the emitted light over an optical fiber. With proposed improvements in the device and external measurement set-up, such quantum transducers may lead to practical devices capable of realizing new hybrid quantum networks, and ultimately, distributed quantum computers.
Microtubule theory of sensory transduction
Modelling Quantum Decoherence in Biomolecules
Why Mercury is a superconductor
Despite being the oldest known superconductor, solid mercury is mysteriously absent from all current computational databases of superconductors. In this work, we present a critical study of its superconducting properties based on state-of-the-art superconducting density-functional theory. Our calculations reveal numerous anomalies in electronic and lattice properties, which can mostly be handled, with due care, by modern ab-initio techniques. In particular, we highlight an anomalous role of (i) electron-electron correlations on structural properties (ii) spin-orbit coupling on the dynamical stability, and (iii) semicored levels on the effective Coulomb interaction and, ultimately, the critical temperature.
https://inis.iaea.org/collection/NCLCollectionStore/_Public/44/070/44070773.pdf?r=1
One question that arose in my mind, when I was trying to research or investigate the physical aspect of the Bell, was that... the question whether it was in Germany, in the third Reich, any physical theory that would allow to perceive, at all, vortices of plasma as sources of gravity. And to my amazement, I have found one. There was a German professor named Pascual Jordan, who has developed such a theory during the war and still is almost unknown. But it was the first physical theory that treated vortices as sources of gravity.
https://projectavalon.net/lang/en/igor_witkowski_nazi_bell_interview_transcript_en.html
1959!!!
Notizen: The Motion of Mercury according to the Theory of Thiry and Lichnerowicz
Thiry and Jordan! Oops - that's the PLANET mercury! Höhler, G. (1968). [Springer Tracts in Modern Physics] Springer
Tracts in Modern Physics, Volume 47 Volume 47 || Recent progress in
cosmology. , 10.1007/BFb0045573(Chapter 3), 111–142.
doi:10.1007/BFb0045576 citing Pascual Jordan
http://www.numdam.org/item/AIHPA_1990__52_2_113_0.pdf
Tunnelling reduces the superfluid density in the direction perpendicular to the planes, and hence the frequency of the plasmon to below the average pair breaking gap. Weakly damped oscillations of the superfluid sustain transverse Josephson plasma waves (JPWs) that propagate along the planes.
https://www.nature.com/articles/nphys3819
At frequencies above ωJ, the current-phase nonlinearity can be used for transforming continuous sub-THz radiation into short, strongly amplified, pulses. We also present quantum effects in layered superconductors, specifically, the problem of quantum tunneling of fluxons through stacks of Josephson junctions. Moreover, the nonlocal sine-Gordon equation for Josephson vortices is reviewed. We discuss the Cherenkov and transition radiations of the Josephson plasma waves produced by moving Josephson vortices, either in a single Josephson junction or in layered superconductors.
https://iopscience.iop.org/article/10.1088/0034-4885/73/2/026501/meta
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