Do you know how to protect layers against laser rays? One version is to use counter laser rays that counteract the incoming laser rays. When two laser rays impact each other. That thing can scatter the incoming laser beam. The system that can scatter things. Like gravity waves. Can theoretically deny the gravitational effect between objects. But that requires synthetic gravitational waves. This kind of laser forms the quantum stylus, which can make new active quantum materials.
But that system can make it possible to make materials invisible to radar, infrared, and the human eye. Maybe those quantum needles that aim electromagnetic radiation past the object can explain dark matter. Those quantum styluses that can be the whirls in the quantum fields. Can aim the electromagnetic radiation past the object. Forming a situation where that radiation cannot reach the particle. If those EM, or quantum fields, cannot touch a particle. We cannot see that particle.
The system can be based on two photons. One photon forms the ring-shaped captured lightwave. That lightwave can be captured around some qasiparticle. Then another photon is standing in that ring. And the system inputs energy to that standard photon. This makes it possible to create the quantum antenna that drives the quantum fields past the surface.
The quantum needles can deny the reflection from the surface. Those quantum styluses can push the quantum fields out from their top. And if the surface below them is at a very low energy level, that can aim the quantum field to the material layer. This thing makes it possible. To create material that is invisible to radar, infrared, and even the human eye.
Surface plasmon polaritons (SPPs) are electromagnetic waves that travel along a metal–dielectric or metal–air interface, typically in the infrared or visible frequency. The term "surface plasmon polariton" explains. The wave involves both charge motion in the metal ("surface plasmon") and electromagnetic waves in the air or dielectric ("polariton"). (Wikipedia, surface plasmon)
Surface plasmons (SPs) are coherent delocalized electron oscillations that exist at the interface between any two materials where the real part of the dielectric function changes sign across the interface (e.g., a metal-dielectric interface, such as a metal sheet in air). SPs have lower energy than bulk (or volume) plasmons, which quantise the longitudinal electron oscillations about positive ion cores within the bulk of an electron gas (or plasma). (Wikipedia, surface plasmon)
The surface polaritons (SP) and surface plasmon polaritons (SPP) can trap photons over them. With the energy fields, those photons can form the quantum needles or quantum hair. When electromagnetic radiation hits those quantum needles, that quantum needle pushes the radiation away from that point. When the incoming radiation hits the quantum needle, it turns it away from the structure, and that can turn the surface invisible because there is no reflection. The quantum stylus turns radiation away from the surface. Making the cone that travels past the structure.
The surface polariton is the thing that can also form around a particle or an elementary particle. This gives one explanation for the dark matter. The idea is that the dark matter particles can be surrounded by the quantum hair. That quantum hair that can be the quantum-tornadoes around the elementary particle can deny reflection from the particle. There is a possibility that this kind of structure can focus the reflection that the particle gives into such a small area. We cannot see that reflection.
“The electric field (E-field) of an SPP at the silver-air interface, at the frequency where the free-space wavelength is 370 nm. The animation shows how the E-field varies over an optical cycle. The permittivity of silver at this frequency is (−2.6 + 0.6i). The picture is (0.3 × 370 nm) across horizontally; the SPP wavelength is much smaller than the free-space wavelength.”(Wikipedia, Surface plasmon polariton)
“The E-field of an SPP at the silver-air interface, at a much lower frequency corresponding to a free-space wavelength of 10μm. At this frequency, the silver behaves approximately as a perfect electric conductor, and the SPP is called a Sommerfeld–Zenneck wave, with almost the same wavelength as the free-space wavelength. The permittivity of silver at this frequency is (−2700 + 1400i). The picture is 6 μm across horizontally.”(Wikipedia, Surface plasmon polariton)
As you see from the images above. If there is a horizontal wave that travels across the field, that thing can turn those reflecting waves in the same direction as the horizontal wave travels.
“Schematic representation of an electron density wave propagating along a metal–dielectric interface. The charge density oscillations and associated electromagnetic fields are called surface plasmon-polariton waves. The exponential dependence of the electromagnetic field intensity on the distance away from the interface is shown on the right. These waves can be excited very efficiently with light in the visible range of the electromagnetic spectrum.” (Wikipedia, Surface plasmon)
The surface plasmon (SP) can form a virtual surface that scatters the reflection. That acts like a stealth structure. But in the other types of wavelength. The quantum needle acts the same way as a stealth surface that scatters radio waves. But this surface puts optical light waves. To slide over the surface.
If the quantum field can make a structure. That looks like. A supersonic pressure cone. That thing turns material invisible to the observer. If the system must turn radio waves away from that pressure cone, it must only ionize gas that makes the pressure cone. Those ions will aim incoming radio waves out from the surface. The cone aims the radio waves into the sides. And denies reflection to the radar. The quantum field manipulation acts in the same way.
Because the quantum field cannot touch the surface, there is no reflection. In reflection, a particle stores energy until its energy level turns high enough that it can release its extra energy in the form of a photon. If there is no energy flow that touches the particle or that energy cone’s energy level is too high, the energy that the particle sends cannot travel through the wall of that energy cone.
Or when the quantum field closes to that particle, it’s possible that the quantum styluses drive energy away from the structure. The idea is that when wave movement impacts the quantum needle, it aims the wave away from the structure.
The idea is taken from the pressure cone that forms around supersonic aircraft. The thing that forms the pressure cone is the airflow, and the airflow can form this cone if the object is static and the wind blows against it. The thing that forms the pressure wave is the needle at the nose of the aircraft.
The idea is that if the particle or quantum structure has a similar needle that aims the quantum cone in a similar way. As the aerodynamic needle aims the airflow. This thing makes it possible. To aim the quantum fields away from the particle or surface. If the quantum field doesn’t touch the surface, it turns the surface invisible, because there is no reflection.
https://en.wikipedia.org/wiki/Polariton
https://en.wikipedia.org/wiki/Surface_plasmon
https://en.wikipedia.org/wiki/Surface_plasmon_polariton
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.