Quantum Broadband Antenna (Part 6 of 6)

BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWINGS
[0004]In viewing this antenna invention, only in the infinitely small sizes that will be encountered, elementary and uniform laws are being used in a quantum nano-scale and comprehended through their behavior in the infinitely small which brings into reality the universal unified field laws to produce a complete wafer-thin antenna design. Viewed from the top down, the first crystal surface is where the first incident connects to the surface energy radiation sensitivity that flows along the crystal lattice that takes the form of a Saint Andrew's cross that guides the refracting incoming light wave signal. FIG. 1, #1, is a complete top view of the embodiment of the present invention which is a transparent crystal 30 mmx20 mm rectangle square with 1 mm thick wafer. Just below the top crystal surface can be seen the metal box springs design aperture that is a Hertzian sine cosine wave metal box springs bed design structure. This will clarify what is meant by north, south, east, and west, as depicted on the drawing of FIG. 1. All statements indicating in this document are as follows. North is shown in FIG. 1, #2; south is shown in FIG. 1, # 22; west is indicated in FIG. 1, #2 arrow passing through bed structure hole; FIG. 1, indicating east, is # 27 arrow passing through end of bed hole edge. In FIG. 1 the equator in the parameters of this metal box springs is located in FIG. 1, #29. Viewing the physical apparatus from the top down and through the surface crystal layerings and into the metal box springs unified field design, there is not just one metal wire strip but a multiple combination of superconductor wire stripes that are cladded, running parallel with cladded complex oxides placed on the north and south sides of the metal box springs running parallel to the Hertzian waves design at different thicknesses on a nano-size to control the distance wave length of the incoming light signal. The metal box springs travels flat and horizontal as a waveguide structure support in order to capture the incoming light signal that is processed along different size of layered oxide levels, thicknesses, and lengths for spectrum absorption, emissions to be rearranged according to the light spectrum. On a closer physical view of the horizontal metal box spring superconductor wire it is seen that this grid is attached to the metal frame by 36 magnetic holes connecting the hook springs that the grid is suspended in a closed vacuum area of Helium-4 between the upper plate and the metamaterial substrate. The metal box springs is suspended and rests on the metamaterial substrate. The parallel aligned complex oxides are designed in unison with the Hertzian wave design pattern of the metal box springs is cladded on the north and south sides of the peaks and valleys of the Hertzian pattern. The wave guide lengths vary with the design depth of the layerings of cladded parallel layerings that determine the range from 700 nm through to 400 nm. This nano buildup of layerings in the peaks and valleys produce the selective wave lengths that will be dependent on the distances of the layered complex oxide which build up in size relationship to each peak and valley closeness of its wave thickness and distance between waves. Each complex oxide that runs parallel north and south according to thicknesses will alternate in sizes between 0.0004 mm and 0.0007 mm. The distance, thickness, and layering combination determine the longer-wave length distance in the wave length and the lower energy wave of red light matches up with the correct thickness in the layering peaks and valleys so that the incoming light signal is selected on the reaction with the complex oxides. The shorter the wave length, the higher the energy wave of blue light matches up with the complex oxide spatial distance of the wave length layerings. The metal box springs is immersed in a vacuum space with Helium-4 between the top deck plate and the metamaterial substrate, as shown in FIG. 3, #58. The complex oxides strips become the spectrum locator, selector propagator of the light wave length distance in which to encompass the full broadband selective holding and controlling the wave length along the Hertzian complex oxide parallel layerings alongside the box springs design for light signal transfer in the distance between the wave length match up of light waves with wave lengths that are shorter than blue light-ultraviolet and the radiation of x-rays and longer than red light infrared radiation are the microwaves to terahertz to the forbidden zone which this multiple layerings will process this scientific contradiction of size and place. Each wave length bends at a different angle as it enters and leaves the top crystal deck. And the associated constance coupling continuum allows energy bands that are obtained from the separated contradiction of the forbidden band area. This interaction between electron's spin and an applied electric field in the forbidden range are allowed bands and forbidden bands on the energy axis and are strong enough in this quantum oval loop interaction known as spin-orbit coupling to provide the means of controlling spins using oscillating electric fields in the vibrating metal box springs unified field design in this complex antenna invention as set forth in Nature, Vol. 468, 23-30 Dec. 2010, pages 1046-1080, Election Spin in the Field by D. J. Reilly. Underneath the first crystal top plate is the metal frame, as shown in FIG. 1 and 36 magnetic holes with 36 springs stretching the box springs grid wave design in this rectangular frame aperture. In FIG. 1, #29, FIG. 4, # 81, FIG. 5, #88, FIG. 10, #119-# 125 is the coupling constance and the connective loop to the north peak and south valley in this view is a Gaussian wave packet that decreases and expands the multiple complex oxide width and amplitude function as it propagates through the superconductor metal wire of the metal box springs and complex oxide parallel stripes coupling to the north and south that create the broadband unification to the unified field coupling in this design for spectral frequency positioning connection of the forbidden bands in the spectrum energy axis. FIG. 3, #53-, #54, #55, # 56, #58, #59, #60, # 61 comprises the entire top deck from FIG. 1 down. The substrate metamaterial plates that create the holding and folding process in directional sectorial zoning capture is below or underneath the metal box springs, as shown in FIG. 1, #11-#33 and FIG. 3 #58-#61 which are called three metamaterial sectorial zoning plate slabs for the purpose of refracted negative movement of the incoming light signal to be directed in the magnetic folding under phases from right to left and left to right that will travel underneath each edge three times down to FIG. 3, #58-#61. This view of the drawings brings together FIG. 1, looking from the top down and FIG. 3, showing a side perspective of the top deck layerings numbered #1 through #33, depicting the reflective refractive frame of the Hertzian sine cosine metal box springs wave with traveling coupling constance connective quantum oval loop gravity. FIG. 2, #34-#52 is the lower deck side view perspective of the embodiment of the quantum electrical vertical loop nano-wire carbon conductor wires and is also shown in FIG. 3, #57, #63-#66 which is the lower layered deck comprising of three plates of mirrored crystal platform slabs. As shown in FIG. 2, #34, #35, #46, #44 and FIG. 3, #53, #55, # 66, #67 are the energy connection of the Saint Andrew's Cross connection to #34 to #44 diagonally which is the incoming electrical power source produced by the batteries to which this antenna is connected. Also shown diagonally #35-#46 is the other diagonal crossing line of the Saint Andrews Cross that connects the transmission of the cable transfer connection to the incoming broadband radio waves that are being held in the sectorial zoning of the metamaterial slabs, as shown in FIG. 3, #58, # 59, #60, #61. Number 62 is viewed as an empty vacuum area in the middle of both decks which is comprised of Helium-4 in this closed vacuum. FIG. 2, #36 vertical arrow and FIG. 1, horizontal arrow #27 and #29 that these arrows indicate the a priori dropping effect of gravity vibrating both in a horizontal and vertical movement off of the metal box springs design grid. FIG. 3 shows a side view of both decks with a cutting point that depicts the metal box springs and the lower vertical electrical carbon wire as shown in #57. This is also shown in parentheses indicating both decks at #67. FIG. 4, numbers 71 through 85 depict the left upper north corner side view showing the light wave of the north portal connection # 75 magnetic hole and the west portal connection at #72 and #73 which also show the quantum loop gravity oval design which connects to the surface plate of the diagonally X energy connection of positive and negative up and down at #80 and #84 and dashed arrow line at #79 which is the exchange field loop quantum gravity connection. FIG. 4, # 82 is the Memristor resistors with memory usual characteristic resistance increases as current flows through in one direction and decreases when the current is reversed. If the current is cut off the memristor line preserves, or remembers, the level of resistance reached when current last passed through it. The reason for this is that voltage exerts a slight chemical tracing force, subtly redistributing the atoms in the crystal structure of a semi-conductor altering its degree of resistance in the quantum oval loop region of the metal box spring's continuous coupling because of the scaled down in size and distance. These mencapacitors and meninductors passive components with memory between charged and current and voltage of flux conjunction of the memcapacitors and meniductors pass through the quantum oval loop. FIG. 4 is the horizontal coupling constance, as shown in #73, #72, #76 , #79, #80, #82, #84. FIG. 5 depicts the vertical traveling coupling constance connection between FIG. 1, #29 and FIG. 2, #36, and is the side view of the frame and spring hook and hole into north at # 94 and connects to the loop quantum gravity hole in # 99 and connects to the metal box springs with quantum electrical vertical loop wave energy at #91, #92, # 93 to the loop quantum gravity oval at #90 # 89, #88 in this view is #86-#99. FIG. 5 depicts the connection vertically from the incoming light signal. The drawings in FIG. 6, FIG. 7 and FIG. 8 depict the holes with the hooks and spring connecting to the grid. The different process of the springs in FIG. 6 depicts the spring being expanded and FIG. 7 depicts the spring at one-half expansion and FIG. 8 depicts the spring in a relaxed mode. The springs hooks expand from the connection of the north to the connection of the south but the holes on the west-to-east side of the frame do not expand at the spring but expand throughout the entire Hertzian grid. FIG. 7 depicts same springs as in FIG. 6 but is one-half expansion in the process of receiving gravity mode of incoming light signal. The drawing in FIG. 8 depicts the same springs except it is in relaxed re-set mode # 109 through #111. FIG. 9 depicts a left northwest corner showing the two different type of hook springs connecting on to the metal frame. It also shows at #113 and # 116 the top overriding connection through the quantum oval loop connection which is called a memristor. The memristor resistor is a part of the usual reconfiguring of the backward folding characteristics which resistance increases as current flows through in one direction and decreases when the current is reversed. If the current is cut off the memristor line passing through it completes its connection with or without current. The reason for this is that voltage exerts a slight chemical tracing force, subtly redistributing the atoms in the crystal structure of a semi-conductor altering its degree of resistance in the quantum oval loop region of the metal box springs continuous coupling because of the scaled down in size and distance design. These mencapacitors and meninductors passive components with memory between charged, current, and voltage produces the necessary flux at conjunction of the mencapacitors and meninductors, which is the horizontal and vertical energy flow from the lower deck at #116 and the upper deck #113-#117. FIG. 10 is a top side view between the horizontal metal box springs, #119, #121, #120, #122, #124, #125 and oval loop and the lower deck carbon-based wire vertical wave shown in # 126, #123. FIG. 10 depicts the horizontal multiple-stripe wire nano-scale dimensions of this miniature universe called a metal box springs at #119 and #125 and the lower deck at #126 and the double loop quantum gravity Venn diagram overlapping connection of all oval loop coupling constance of this unified field design. FIG. 10 design encompasses the coupling constance that will cause the electrons to pass from one potential valley well to peak, to the greater or lesser complex oxide bandwidths which represent the reason for the strip parallel layering traveling north and south that the energy levels are controlling by the complex oxides that chemically react with different light frequencies and the spatial extension, expansion, contraction collapse associated with the interlocking magnetically sandwiching the incoming light wave signal. And the electromagnetic associated continuum level allows energy bands optically are thus obtained in the complex forbidden band zone. This interaction between electron spin and an applied electric field in the forbidden range area allows bandwidth connection in the forbidden bands in conjunction with the flow on the energy axis which is strong enough to produce between the different deck combination connections of this coupling constance quantum oval loop interacting, known as spin-orbit coupling, that this expanding and contracting combination design provides the traveling means of controlling spins using oscillating electric fields in the gravity-oriented vibrating metal box springs that produces a unified field design to hold the incoming light signal in this complex antenna invention. This last description of the drawings shows the difference between narrow aperture and wide aperture that is stated here and in the claims. This overall description which is of importance is the wider the antenna surface aperture of said box springs will create a straighter broadband connection that connects to one particle that travels in the same path. Furthermore, traveling in an elevator traveling vertically combines space but also spacetime together creating two particles traveling in two different paths, causing the disconnect from today's antenna's that have a narrow aperture. The major difference between the narrow aperture system and the metal box springs invention aperture is that it is a wider rectangular aperture that combines and produces the process for a straight plain constance speed in a straight line across said antenna surface plate box springs aperture at #27 and a Einstein curvature in spacetime in space across said aperture, now in spacetime which said antenna connects with both particles traveling in different paths, as shown in FIG. 1, #27, particle 1 and #29, particle 2; hence the antenna will not disconnect the radio signal from the device while traveling in an elevator that creates a two-particle connection. The overriding issue is the Einstein General Theory of Curvature, associated with this new invention antenna, which bends gravity by the flexible box springs that is transparent optically to bend light rays and in combination with Nordstrom's contradictory theory and will now fit in this dual-deck antenna process because light always goes in straight lines and in a curvature line. Therefore because of the use of new material, the multiple size of scaled distances and the specialized design, Einstein's and Nordstrom's contradictory concepts are now combined in a geometric process in this new antenna invention aperture, as specifically shown in particle 1 connection, # 27 and particle 2 connection, #29.
DETAILED DESCRIPTION OF THE INVENTION
[0005]The book, Applicability of Mathematics as a Philosophical Problem, by Mark Steiner, discusses the ideas of Maxwell, Einstein, Lorentz, Schrodinger, Heisenberg, Dirac, Gauge, and Gauss and this combination of ideas becomes the detailed abstract core for this new antenna. These combinational ideas state that this metal box springs is a Gauge transformation, an invariance of Maxwell's equation under Gauge transformation which is the Hertzian sine cosine sine metal box springs symmetry of two-stacks design which is analogues to the invariance of Einstein's equation under local arbitrary coordinate transformation's general covariance. This proved that Maxwell's equations are virtually the only equations that are both Gauge and Lorentz invariant. In this metal box springs design symmetry becomes what these men produced in physics which now becomes an antenna between general covariance and Gauge invariance which is the key to the unifying electromagnetism in combination with gravity in this miniature nano universe. Therefore, the Gauge transformation together with Lorentz transformation of special relativity determined Maxwell's equations as demonstrated in this metal box springs design. The conclusion is that the Hertzian sine cosine wave is coupled to its counterpart waveguide that is the metal box springs that moves from global to local invariance in quantum mechanics. This is equivalent to the existence of the classical electromagnetic field described by Maxwell that produces the process that is already designed in nature. Specifically, this design feature in the metal box springs is also directly related to Dirac confined radiation that was studied in a box. As stated in Physical Review Letters, Vol. 99, 24 Aug. 2007, Utilization of Photon Orbital Angular Momentum in the Low-Frequency Radio Domain by B. Thide, pages 1-4, that this metal box springs antenna is fed the same signal but is delayed by the folding refluxtivity and holding to each separation directional metamaterial sectorial zoning boundary east to west and north to south producing a complete folding under into the metamaterial plates that produce a full turn around in the antenna array axis. This directional metamaterial sectorial zoning phase has been incremented by miniature dimensions of magnetic directional far field intensity in order to fold and hold along the wave guide and down into the metamaterial substrate. The natural movement traveling vertically now travels horizontally along the wave guide of the metal box springs design. The incoming light signal now passes down into the first domain of the metamaterial substrate from left to right, right to left of the directional magnetic sectorial zoning being directed by the electrical fields vectors, as shown on page 2 of the Thide article, arrows on the diagram's main lobe beams. The key to this metal box springs design is the miniaturized nano-sized universe coupled with the advent of metamaterials superconductors and complex oxides that when put in the nano-sized world becomes a gigantic celestial state of space time which makes this a novel, unified full-field, information-rich radar, and wireless communication concept methodology that can be used for a perfect receiving and sending antenna. Dirac's symmetrized form of the Maxwell-Lorentz electro-magnetic and Einstein's theory of gravity's unified field theory and the existence of a vast spatial distance on a nano-scale produces a monopole in a nano-miniature universe that creates a full aperture reception at 20 mmx30 mm. This metal box springs is the design combination box associated with Dirac energy that crisscrosses diagonally in Maxwell's theory which gives the radiation as a superposition of countability on the surface of the top plate. The metal box springs cladded parallel stripe modes which are the layered superconducting wire and cladded complex oxides parallel to the metal box springs for frequency, zone manipulation of the spectrum. This creates a harmonic oscillator which is controlled by the metal box springs waveguides design vibration from the idea of gravity and light associated with Lorentz's relativity of a universal matrix. Each harmonic oscillator can be quantized, according to Schroedinger's equation, or Heisenberg's equivalent approach. Therefore, the quantized field, then, is the flat multi-dimensional superposition of countability of many flat horizontal layered crystal superconductors on a metal box springs bed now used to control the vibration of receiving thousands of light signals hitting the top deck of this refluxtivity antenna. This process of refluxtivity traveling coupling constance motion of many thousands of incoming light signals will control the frictional vibration so that the light signal can fold back in upon its metamaterial directional sectorial zoning stacks of layered plates. This dual design contains second derivatives of space between its symmetry of miniature nano size and the helium-4 down to the second deck's electrically charged reflective mirror plates. FIG. 1, the entire design, and FIG. 10 show this metal box springs design's coupling constance of the metal box springs which is between the crystal plate and on to the surface energy movement in this band gap Hertzian waveguide that runs electromagnetically between the open spaces of the wire design optically. This is called an invisible energy movement described as a Saint Andrew's diagonal matrix energy movement across the plane on top of the metal box springs waveguide wire layerings of superconductors and complex oxides which makes a constance coupling junction from the metal box springs design, as shown in FIG. 10. This conjunction is an interdigital design electrodes of oval loop quantum gravity, # 119-#126 which shows the spatial broken crossing symmetry of FIG. 10 that is the core of the constance coupling embodiment that is described in the specifications and claims in the invention, as is applied to all FIG. 10's noted in this invention. As stated in Nature article, Vol. 468, 11 Nov. 2010, pages 184-185, Mind the Pseudogap, by Chandra Verma, and the Letter article, Vol. 468, 11 Nov. 2010, pages 283-285, Hidden magnetic excitation in the pseudogap phase of a high-Tc superconductor by Yuan Li, that on pages 184 and 283 of these issues, Li, et al., reports observing a special kind of intense collective electronic fluctuation in the most mysterious phrase of matter exhibited by high-temperature superconducting copper-oxides materials. As shown in FIG. 1, page 184, phase diagram of the cuprates depicts the strange-metal region of a quantum critical point of sectorial zoning areas between antiferromagnetic materials and neighboring spin points in opposite directions. This is depicted in the invention FIG. 10, # 121, #124 and between the crossover at #123 . This crossover line in FIG. 10, #123, is a combinational transitional phase connecting all three designs to produce the electric holding of the incoming incident wave that is being directed by the Saint Andrews energy phase across the surface of the crystal plate and down on to the metal box springs and on to the quantum oval loop shown in FIG. 10, #122 and coupling to the lower deck of the quantum electrical vertical loop connection in FIG. 10, # 123 and #126. This magnetic gap transition is a gradual crossover between all quantum oval loops of thermodynamic and electric transport properties. As stated in this invention, the multiple alternating layers of yttrium barium in which the quantum critical point is the cladded parallel complex oxides that create the frequency jumping of the multiple spectrum contradictions directed on to the top of the oval loop, creating a double overlapping dome in which to create a loop dome-shaped superconducting design region of this phase, as depicted in FIG. 10, #122. This dome extension point is a build-up of energy fluid placed on top of the oval loop region which occurs at zero temperature and would involve a change in symmetry expansion of the material's electronic structure as shown in FIG. 10, #119 through to # 126. Because the high-Tc superconductor is determined by the materials' collective electronic excitations combinations in the non-superconducting state which is the constance coupling of electrons downward into the connective design to this excitation in the strange metal region of the oval loop which is the connection to the metal box springs and the quantum oval and quantum electrical vertical loop, as shown in FIG. 10, #119, #120, #126, #125. This produces a long-range order phase in the spectrum in which pairs of electron current vertical loops flow within each of the materials unit cells or upper and lower deck which is called quantum oval loop connection to the electron current vertical loop and produces a pair of oppositely directed magnetic movements, as shown in FIG. 4, #80 and # 84 which is the lower deck crossover. The change of symmetry is indicated in the metal box springs ability for expansion and contraction movement vibration; therefore, these modes of fluctuations from these design materials across the directional sectorial zoning of metamaterials' opposite magnetic flow in nature are being controlled by the energy of Saint Andrews finite movement across the quantum oval loop and lower deck current quantum electrical vertical loop order, as shown in FIG. 4, #76, #79 overlapping #80. As shown the Chandra Varma, et. al., article, FIG. 2, the loop-current electronic order unit cell shows a negative one side and a positive on the other side on each end of the cell. This is also shown in the quantum oval loop showing a negative Venn diagram overlapping to create the double dome flux connection, as shown in FIG. 10, #121 and a positive Venn diagram overlapping connection, as shown in FIG. 10, # 124. Both the article diagram and this invention's diagram are one and the same, showing the connection of the complex copper oxide CuO material onto the metal box springs overlapping the quantum oval loop depicted in the overall design of FIG. 10 and the quantum electrical vertical loop, as shown in FIG. 10, #126. Because of the size-distance and thick widths and metal box springs arrangement of the parallel superconductor wire and parallel complex oxides that travel down into the metamaterial substrates and the fluctuations of the width creates the different band widths because of the multi-layerings due to the variation of the medium's parameters, such as the dielectric constant, magnetic permeability, or barrier height for electrons in mixed systems such as this metal box springs method allowing the redirection to transport frequencies along the multi-layering dual deck system. This will not impede the transport along these boundary layered reversing ferro-nano separators that will not impede the frequency energy of the electromagnetic electron waves because of its optical nano-miniature design structure. This is not a conventional photonic stack so over barrier scattering transport is a good thing because each chemical oxide depends on all the rest during the transport of the incoming light wave for controlled placement. This multi-layered metal box springs Lorentzian line shape now centered on the longitudinal vibration frequency based on the bunk bed springs to bounce this vibrational wave relative magnitudes to transverse and flip-flop longitudinal refluxtivity folding at the edges of the cross sections of the scattering geometry and on the relative sizes distance separation and design of the parallel stripes multi-layerings that are cladded on to the wire line of the box spring waveguide that have opposite signs for many Zinc-blend structures in this crystal substrate, Hertzian wave design such as GaP, Faust and Henry 1966 and GaAs, Johnston and Kaminow 1969 and also have the same design in other crystal structures, Scott et al., 1971, and also the angular variations of polar-mode frequencies in biaxial crystals are those of Quilichini and Poulet 1974 on BaZnF4 and of Quilichini 1975 BaMgF4 orthorhombic with 27 polar modes in combination with uniaxial crystals ferroelectric BaTiO (Pinczuk et al., 1969, Laughman et al., 1972, Heiman and Ushioda, 1974, LilO3 and BeO are all layered in the parallel spacing alternating alongside the north and south of the metal box springs wire multi-layering wave design on both deck plates of this antenna. Directly above is a listing of complex oxides and the listing of the complex oxides on pages 29 and 30 of the specifications of this document are a combination reflecting the use and placement in the same area that the specifications indicate. These complex oxides which housed free electron plasma and the plasmon frequency behavior are imbedded in the metamaterials substrates which are comprised of n-Si and n-Ge which have multi-layered conduction bands which support a richer variety of collective modes. This is discussed in the book, Scattering of Light by Crystals, by William Hayes, Dover Publications, page. 6-336. The Maximality Principle leads to the wave-particle duality, to interference phenomena which only arises when the coupling constance makes a nonuniform change of phases; therefore, this metal box springs has many momentum coordinates which is enough to position coordinates that can change because of the repetitive coordinate coupling constance design of this metal box springs. This quantum field grid miniature universe metal box springs, according to the science world and all visual experimental evidence and scientific thought, leads to a design invention for a nano-antenna. The Lorentz-Bose-Einstein-Maxwell invariance in this design is the equivalence of all inertial systems that require crossing symmetry refluxtivity folding and holding the light signal by a directional magnetic metamaterial plate substructure. This feature of this metal box springs rectangle of subatomic collision of metamaterial complex oxides imbedded into optical crystals is Pythagorean in design and in temperature it is near zero. In this metal box springs the scattering is in the spatial size that the incoming light signal passes through and conducted in a refluxtivity before the scattering collision and is already guided along the controlled complex oxide optical pathways to gravity's vibrating wave guide of the metal box springs to the directional magnetic metamaterial folding under of said light signal and crossing the Hertzian symmetry which is exactly what the electron moving backwards in a memristor time hooking and a refluxtivity fold and hold on both decks of this solid state and gas-oriented quantum antenna. And as proven in Wilczek 1991 experiment as shown in The Applicability of Mathematics as a Philosophical Problem by Mark Steiner, page 12, FIG. 4, particle 1 incoming from west, particle 2 coming from the east, particle 1 arrives at 135 degrees and the other at 315 degrees. Particle 1, incoming from the west to east is deflected backwards at an angle of 45 degrees from its path, is a refluxtivity fold. And particle 2 which is deflected forward at an angle of 135 degrees from its incoming path is done by the cutting edges of the layered crystal. The loop quantum gravity in FIG. 1, #7, is a mirror image in the substrate plate, FIG. 2, #36, # 43, #48 and is called radio frequencies and it becomes the coupling constance in this resonant system of optical frequencies nanoscale highly polished gold metamaterial rectangle plate substrate where the folding and holding of collective oscillations of free electrons is known as imbedded surface plasmons, approximately 100 nm thick. The edge of north-south-east-west on this plate frame becomes a phenomena in design, unknown to classical mechanics until all of the mechanics are applied in a complete miniature size that will create the spin fold and hold of where the antimatter begins that produces this refluxtivity folding and holding of the spin up and hold spin down into the prepared cavity of the crystal aperture. This constance coupling connection is where the continuous constant holding of the collection of the incident light signal that is scattering onto the surface plate of this invention that now uses Dirac's antimatter concept of negative energy connecting with the negative indexing of metamaterials, which can now be reconnected and applied to this Gauge transformation together with Lorentz's transformation of special relativity refluxtivity determined by Maxwell's equations that become truth when placed and designed on a nano-local invariance in quantum mechanics which will be the new unified field reality equivalent to the existence of the miniaturized classical electromagnetic field being applied in nano-spacetime coupling constance continuum on the dimensions of a nano unified field quanta using these photons in this space-time miniature nano-continuum quantum antenna being presented for a patent.
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