Liquid Elements At Room Temperature
Liquid Light at Room Temperature!
By Dr. Inés Urdaneta / Physicist at Resonance Scientific discipline Foundation
When we think almost liquids, we recall most ane of the four known states of affair: gas, liquid, solid and plasma (charged or ionized gas). Light being mass-less, the words liquid and low-cal put together seems at first like an oxymoron. Just not and so long ago, in 2013, a theorized similar state of affairs predicted in 2007 and called "photonic molecule" was made artificially. In these experiments, photons – quantum of electromagnetic fields, which take no balance mass and travel at the speed of light in vacuum – demark together so strongly, they behave as molecules, and and so acting as if they had mass.
Some other example concerning light which reproduces the physics of molecules, consists of photons confined to ii or more than coupled micro-optical cavities, since it reproduces the behavior of interacting atomic energy levels. For this reason, it has too been termed photonic molecule, which is an alternative – but not equivalent – definition to the first.
A micrometer-sized piece of semiconductor can trap photons inside it in such a mode that they act like electrons in an atom. The issue of such a shut human relationship is a "photonic molecule," whose optical modes bear a strong resemblance to the electronic states of a diatomic molecule similar hydrogen. Photonic molecules, named past analogy with chemical molecules, are clusters of closely located electromagnetically interacting microcavities or "photonic atoms". Optically coupled microcavities have emerged as photonic structures with promising properties for investigation of fundamental science as well as for applications. – Wikipedia
A third instance concerning low-cal, but this time interacting with thing, is that of photons interacting with electron-pigsty pairs – called excitons – in a semiconductor. These excitons impose a dipole moment, which combined with the dipole of the electromagnetic field, couples strongly the excitons and the photons. The final result is a polariton, considered a quasiparticle composed of half-light and half matter, which behaves as a Bose Einstein condensate or superfluid, even at room temperature. This case is referred to as Liquid light.
Liquid light was formerly accomplished only at a cryogenic temperature, in the absence of polaritons. In society for superfluidity to occur at room temperature, polaritons must exist nowadays, and and so the experimental setup is more complex. The video below explains the Liquid low-cal phenomena for the case mentioned:
Multiple polaritons confined in the aforementioned identify induce condensation into a light-matter fluid; a Bose Einstein condensate or superfluid that emits light with clockwise or counterclockwise spin. The spin tin switch direction decision-making the electric field induced within. It is this polariton fluid's calorie-free emission spinning up or downward that serves as a spin encoded light binary lawmaking that could be sent through the optical fibers carrying data equally optical signals and translating information from the electrical authorities into the optical government. For this reason, the Liquid Light is existence thought of as a tool for data transfer beyond Moore´south police.
Superfluidity means that in circumstances where a normal fluid would create waves or stay still in a recipient, a superfluid would not; for instance, it would climb the walls of the recipient. Therefore, the chief difference between a normal fluid and a superfluid is that the 2nd one has no viscosity.
The extraordinary observation in our piece of work is that we have demonstrated that superfluidity can also occur at room-temperature, under ambient conditions, using calorie-free-thing particles called polaritons.
– Daniele Sanvitto, lead researcher, CNR NANOTEC Institute of Nanotechnology, Italy
Superfluidity state can be idea of every bit a new state of matter…
RSF in perspective
Superfluidity is a phenomenon assigned to Bose Einstein condensates, occurring mainly in particles capable of forming cooper pairs, like electrons do. In our view, infinite itself presents such superfluidity, as the Planck spherical Unit (PSU) – which is not to be confused with a unit of measure; a PSU is the pixel of space itself. The Planck Oscillator or PSU is a quantum oscillator at the Planck frequency of the electromagnetic field, i.e., a bosonic particle.
These PSU units compose matter besides, following the holofractograpic principle of Haramein´s theory, which predicts the radius of the proton with one standard deviation from experiments and with no adjusting parameters, while the standard model is off by vii standard deviations, roughly iv% bigger radius than the latest reported proton radius. An extension of the standard model, called superfluid vacuum theory (SVT) – or Bose Einstein Condensate (BEC) Vacuum Theory – also considers vacuum as a superfluid or Bose Einstein condensate.
More at:
https://world wide web.sciencealert.com/scientists-create-fifth-land-of-matter-liquid-lite
https://www.extremetech.com/extreme/233814-one-step-closer-to-spintronics-scientists-create-liquid-lite
https://futurism.com/liquid-light-scientists-unite-calorie-free-and-electricity-to-make-electronics-smaller-and-faster/
https://futurism.com/scientists-demonstrate-liquid-light-at-room-temperature-for-the-first-time
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Liquid Elements At Room Temperature,
Source: https://www.resonancescience.org/blog/Liquid-light-at-room-temperature
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