Quantum Broadband Antenna (Part 5 of 6)

As an example of the above statement, it is stated in Physical Review Letters, Vol. 101, 19 Dec. 2008, in Metamaterials Analog of Electromagnetically Induced Transparency by N. Papasimakis, that the studied metamaterials are based on a continuous description of fish-scaled metallic pattern which is to illustrate the difference between the two names of fish-scaled and this invention called a metal box springs design and are one and the same design. This metal box springs beam forming combination waveguide is a typical single band-gap resonant structure that guides the light signal down into trapped-mode directional metamaterial sectorial boundary separations of these two types of structures which are a combination of gas and solid state antenna processes. In the above-mentioned Papasimakis, et al., article, the manufacturing metallic pattern is etched on one side of the dielectric slab, while, in the trapped mode of the metamaterial, the pattern resides on both sides of dual deck and metal box springs refraction, so that the pattern on one side of the dielectric slab is shifted along the meandering metal box springs strips pattern on the other side at 15 nmx1.5 nm bi-layered of the fish scale and now called the metal box springs placed above the metamaterial substrate counter design, as depicted in FIG. 1, #6, #16, #18, #27 line narrow transmission resonances of #6 and the broadband cavity mode width transmission in #11, #12, #13, #14, # 15, #16, #17, #18 on the right-hand side and #23, #24, #25, #26, #28, #30, #31, # 32 and #33 on the left-hand side of the wire wave and the substrate broadband cavity beam-forming mode combination to produce a dual waveguide wire design and a metamaterial substrate composite design. The article in Physical Review Letters, Vol. 103, 6 Nov. 2009, Reversed Cherenkov-Transition Radiation by a Charge Crossing a Left-Handed Medium Boundary by Sergey N. Galyamin, describes the macroscopic metamaterials parameters of E and U. This sectorial metamaterials zoning is most importance in this metal box springs design process of holding and folding of the light wave. In the 1960s Veselago introduced the concept of left-handed media having simultaneously negative permittivity and permeability. The left-handed metamaterial: the electric field vector, magnetic field vector, and wave vector form a left-handed orthogonal sectorial zoning on to the substrate of the metal box springs. The beam controlling direction along with the energy flow and the re-direction of the phase velocity are opposite in the left-handed metamaterial folding, resulting in very unusual properties of electromagnetic wave propagating to reconnect the electrons in this metal box springs media design in order to correct the natural gap so that there will be no disconnect from the incoming light signal. This design will entail left-handed frequencies band as opposed to right-handed frequency band which will be in the range spectrum of the gigahertz frequency band. In these nano-stripes of complex oxides that chemically produce beam-forming combinations of coupling constance conducting through the chemical superconductor elements having their size and spacing much smaller than the wavelength and thus such media will be described by lengths of perfection as macroscopic parameters of E (w) and U (w), as described in the Galyamin article reference above. As stated in Physical Review Letters, Vol. 89, 16 Dec. 2002, pages 1-4, Power Propagation in Homogeneous Isotropic Frequency-Dispersive Left-Handed Media by J. Pacheco, article and this invention of the metal box springs which will be use in this new metamaterial boundary system sectorial zoning of directioning from the beam-forming combination substrate that produces a right-handed medium directional process holding and frequency dispersive left-handed reconnecting medium phase. As stated in book, Photonic crystals: Theory, Applications, and Fabrication by Dennis W. Prather on page 245 concerning left-handed behavior and negative refraction, this process material behavior “has profound consequences for the behavior of electromagnetic waves traversing such materials, as discovered by Beselago [12, 47] and by Pendry [ 13].” For example, in such materials, the Doppler shift is reversed, i.e., the frequency of light emitted by a source moving toward the observer is reduced, and Cherenkov radiation points the other way with respect to the moving particle that generates it which is the folding phase point. As stated on page 15 of the book, Modern Optics, by Grant R. Fowles, the Doppler effect on a source of Hertzian sine cosine waves and a receiver are in relative motion while the waves are being received; the observed frequency is being changed compared with that in which there is no motion. The refluxtivity of this metal box springs design connection with sound waves connects with the metamaterial sectorial zoning area for folding and holding the source of the incoming signal that is constantly moving away from the receiver and expanding across the 20 mmx30 mm aperture nano-distance that is the proper beam controlling combination of this dual metal box springs antenna. Also the book, Almost All About Waves, by John R. Pierce, page 24, states that waves “of different frequencies travel with the same velocity, all the sinusoidal component waves travel together, and the pulse retains the same shape” in the metal box springs design “as it travels along” the beam-forming Hertzian parallel complex oxide fringe wave guide. However, if the velocity is different for different frequencies, some sinusoidal frequency components lag behind or run ahead of other or the pulse is broadened or dispersed as it travels. Hence, a dispersive mode is one for which the velocity changes with frequency, so that pulses are broadened or dispelled” as they travel along the beaming forming metal box springs that in a horizontal flat mesh design grid. This horizontal flat design of Hertzian parallel striped complex oxides is designed for the expressed reason of the collapsing wave to a beam-forming pattern for controlling this collapsing beam. “Conversely, if the velocity does not change with frequencies, that is, if the . . . curve is a straight line through the origin,” is called a Saint Andrew's cross and the mode is non-dispersive and the pulse retains its original compact form as it travels through this metamaterial folding wave reversing process. In the Pierce book on page 65, FIG. 8.3 maps out this complex frequency relay and frequency scanning associated with the horizontal beam forming metal box springs in order to control the collapsing light signal before the coupling constance of it being trapped by the quantum oval double dome loop design, as shown in FIG. 1, #8 and FIG. 10, #119-#126, of this complex multiple beam-forming frequency division. Such a negative refraction makes an axis-free lens possible in this folding in upon itself in a palindrome. effect. In this case, light rays that originate at a point to the left of a negative-index slab undergoes refraction at each beam forming waveguide superconductive boundary between the multiple dual-deck reflective metamaterials. These metamaterials produce the coupling constance along with the quantum oval loop that converges and combines with both to focus from the loop and into the negative-index material substrate. This will produce the necessary beam-forming combination connection between both decks to produce an optical focal point connection on to the other lower deck. This antenna is a lens that translationally becomes invariant, no optical axis is present only the design of the metal box springs, and the same focusing and imaging takes place regardless of the position of the object along the surface. This phenomenon is being used for the collection and gathering of incoming radiational light waves of electromagnetic energy that moves in the dual first contact vector and only indirectly follows from the negative sign μ and Є. In highly structured metamaterials, such as photonic crystals, using the Poynting vector to determine the energy flow can be exact. However, because group velocity also points in the direction of energy flow and is well defined in photonic crystals, it can be used instead of the Poynting vector. Thus left-handedness in this case can be defined as having group and phase velocities that point in opposite directions. As in this invention for a metal box springs design, the circular oval loop with a radius k, the effective refractive index for the frequency ω corresponding to such contour can be defined following Snell's law as k/ω/c, where c- is the speed of light in vacuum. The Pierce book on page 246, FIG. 5.43, indicates the same exact movement as in this metal box springs invention. As stated in the book, Quasioptical Systems Gaussian Beam Quasioptical Propagation and Applications, by Paul F. Goldsmith, page 125, In analyzing antenna feed systems and Gaussian beams it is very useful to take advantage of the reciprocity theorem Krauss, pages 410-413, which the metal box springs design employs here in the sense that it can be considered equally well a forward and a backward mode folding and holding for antenna operation. As is well known to antenna engineers, for the forward (or receive) mode, we deal with radiation collected by an antenna and brought to a focus, which then must be analyzed in terms of coupling to a quasioptical, generally Gaussian beam, system. In the reverse (or transmit) mode, we consider the quasioptical system to be radiating a specific Gaussian beam and determine the illumination of the antenna that results, this being the amplitude and phase distribution across the aperture of the antenna. This antenna is a nano-repetitive wire crystal design that captures the full spectrum because the aperture is 20 mmx30 mm that is both a gas and solid state system built in together. In combination with these two systems and sizes, it is accentuated by the use of maximum condensed complex oxides that become receptively attuned to the incoming light signals. These metamaterials are left-handed media, introduced by Veselago in 1968, and as well as in this invention for the metal box springs antenna. These negative permittivity and permeability on the left-handed metamaterial substrates, metallic wires and hole resonators are shown in FIG. 1, #2 and #3. In actuality, each hole on the west side of the interference front moves in the direction of the power flow downward and to the right. Both east and west movement in this invention, as shown in FIG. 1, #27 arrow, coupling constance incoming frequency relay from west to east of this signal is a Gaussian beam which connects to the incoming incident light wave signal vertically, as shown in FIG. 2, #36, which travels downward into this dual-deck cavity of the antenna. Since it has been shown that the negative refraction is now possible to pick up multi-frequency signals because of the new reconnective manmade metamaterial boundary structures associated with this design metal box springs wire overlays in order to produce a new refluxtivity hook of all incoming light waves sandwich between all of the stacks of this wafer design. The design and the metamaterial elements specifically are shown in Physical. Review Letters, Vol. 99, 21 Sep. 2007, page 1, “Reentrant Quantum Hall Effect and Anisotropic Transport in a Bi-layer System at High Filling Factors” by G. M. Gusev, depicts the same symmetric-antisymmetric energy gap that is controllable through the height and width of the optical wire waveguide that crisscrosses through a perpendicular magnetic field which is called a quantum Hall state. As shown in the same Gusev article, on page 2, the diagram in FIG. 1 of this article conclusively shows the metal box springs double well structure that proves that this new refluxtivity antenna directivity diagram can be used for perpendicular and parallel vertical magnetic holding, relay and scanning separation on a broadband level. This metal box springs system is extreme sensitive refluxtivity to two particles with energies lying within the energy range defined by two-layered metamaterials structures for the left-handed metamaterials. As stated in Physical Review Letters, Vol. 103, 6 Nov. 2009, in article Experimental Verification of Reversed Cherenkov Radiation in Left-Handed Metamaterials by Sheng Xi, the refluxtivity in the invention, that in 1968, Veselago predicted the abnormal reversed Cherenkov radiation in left-handed metamaterials with simultaneously negative permittivity and permeability that will allow the backward emitted wave to be folded easily and separable from the emitted particles and since this design uses overlapping edges and connective coupling constance that is adaptable to nature's natural quantum oval loop gravity resonators, located in FIG. 1, #7, FIG. 4, #82, FIG. 5, #98, #99, # 87, #88, #90, FIG. 9, #115, #118, #116, #117 and FIG. 10, which is called the connective interdigital electrodes of this oval loop quantum gravity device, #119, #120, # 121, #122, #123, #124, # 125 and #126, respectively placed throughout the Hertzian sine cosine metal box springs making connection with the seinolide wave design function and universal connection. The dome double overlapping of the quantum oval loop gravity is the connectiveness of both decks, as shown in FIG. 4, #82, #81, #83, FIG. 5, #90, # 88, #87, #99, FIG. 10, interdigital electrodes quantum oval loop gravity, #123, # 126 are called quantum oval loop gravity resonators connectors in the reversing process which allows the radiation in the left-handed metamaterials with simultaneously negative permittivity and permeability allowing the backward emitted wave to be easily separable from the emitting particles, as shown in FIG. 1, # 7, #29 zero order rediffracted beam, as shown in FIG. 2, #37, FIG. 3, #56, FIG. 4, #81, #82. #83, FIG. 5, #99, # 87, #88, #89, #90, FIG. 9, # 118, #116, #117, FIG. 10, # 122, #124 is the wire connective quantum oval loop gravity in this metal box springs system. In Physical Review Letters, Vol. 98, 15 Jun. 2007, pages 1-4, NMR Probing of Spin Excitations of a Two-subband System by X. C. Zhang conclusively prove and observed this ring-like overlapping quantum oval loop structure with a quantized Hall conductance of the 6 e 2/h, in this phase diagram of two sub-band electron systems. The strong dynamic nuclear polarization by the biasing current has also been observed only inside the ring quantum oval loop gravity region being a ferromagnetic state that is accompanied by collective spin excitations. As shown in FIG. 4, #82, FIG. 5 # 89, FIG. 9, #118, FIG. 10 #126 121, #124 connective quantum oval loop gravity Venn overlapping of the oval ring that electromagnetically draws the radiation down into the center of gravity, as shown in FIG. 1, #29 is a zero order rediffracted beam. This two-dimensional electron system, consisting of the connective wire sub-bands is now a reality brought forth by the use of reduplicating nature's conductive pathways being reproduced in this metal box springs design. This system is two different sub-band quantum systems that are solid state and gas oriented that use the ability to attract incoming magnetic field and/or carrier waveguide concentrations of manmade metamaterials for trapping and holding the incoming signal. This system is in a density-magnetic field plane, exhibits pronounced oval-like loop quantum gravity structures and represents ferromagnetic phases that can be reduced to single particle states with an enhanced exchange interaction within each sub-band in this space-time Einstein framework of a mean-field applied to this invention's metal box springs miniature size universe. Page 2 of X. C. Zhang's article shows a real time photo FIG. 1 of resistivity versus magnetic field and gate voltage at 240 Å thick. This article and reality photos specifically depict the coupling constance link of the loop quantum gravity, as shown in FIG. 10, #122 which is the gravity loop and #126 shows the lower deck vertical electrical link arching up at #23 connecting with # 122 and #119 and #125 show the wave hall effect phase as described in this article and describing the Venn multiple overlapping as shown in #121 and #124 and the overlapping of the memristor folding and reversing line in FIG. 9, #116, all connecting in FIG. 10 of this invention. This metal box springs embodiment, as shown in FIG. 10 and all the specifications above and the core claims that said broadband antenna will not disconnect from the incoming signal which will reverse the Mossbauer effect which is now being corrected through the use of unnatural manmade sectorial zoning of metamaterials and complex oxide superconductors embedded into the metamaterials substrates sandwiched between frictionless helium-4 gas no. 3 which is converted into a solid. The substrate superfinely tuned frequencies for emission and absorption of light into this receptive material is reconnecting nature's abnormality gap in the refolding and holding process phase of the incoming spectral frequency combinations. The metamaterial atoms emit and absorb light differently near the frequencies in the quantum metamaterial and subconducting ferromagnetic receptors being developed in this invention using manmade reconnective metamaterials. The light is emitted and absorbed not at fixed and precise frequencies, but in frequency intervals of separation finite width which is trapped by the sectorial zoning of the metamaterials and complex oxides to produce the holding and phase folding of said interval of the incoming light signal. In the Mossbauer effect, emission and absorption happens not at the single atom but the entire cavity of the crystal which in this invention produces this effect and goes a step further in order to correct and to reconnect the gap separation produced by nature to the emission and absorption on the entire crystal structure's sectorial zoning of the manmade reconnection produced by these metamaterials which reconnects the frequency mismatch in order to complete the holding of the incoming signal. The reconnecting of the traveling light signal penetrating the crystal and an absorbing one of the same type are positioned at different broken altitudes, thus, general relativity comes into play by the used of manmade metamaterials that complete this broken altitude gap that nature produces. Time progresses differently for the emitting crystal than it does for the absorbing one, causing a frequency mismatch disconnection in the light that reaches the absorbing crystal in nature. But the re-construction of sectorial zoning and manmade optical metamaterials create a manmade optical metamaterial to reconnect to the emitting metamaterial crystals to complete the holding of the incoming light signal. This also re-connects to the absorbing sectorial zoning to this reversal of this natural mismatch connection that completes the light that passes into the absorbing crystal. This mismatch is now corrected through the unnatural manmade metamaterials sectorial zoning on the borderlines of the crystal optical media and superconducting complex oxides to the edges for folding and reversing under and down into the metamaterials. That which is being claimed in this invention has corrected nature's gap which is now the reconstruction and reconnection to this altitude mismatch in order to produce the folding and holding of said incoming light wave signal. The correction reconnection to the separation in the negative left-handed refraction reversal is now connecting to nature's mismatch that was preventing the light signal from being absorbed and held into the middle cavity which is made of frictionless helium-4 gas vacuum. The completion of the traveling coupling constance in this dual deck of the metal box springs and the lower deck emission and absorption process occurs in different states in continuous, traveling mode through all the crystal layerings stacks, as shown in FIG. 3, #58 through to #70. This simple fact between nature's dysfunction and manmade unnatural metamaterials corrects this disconnect to reconnect, hold, and reverse phases of this mismatch that reconnects by the use of left-handed negative refracted sectorial zoning metamaterials. This solves the disconnect signal frequency mismatch by which the light wave signal can be reconnected and held for it to be absorbed and held and never disconnected the incoming signal from the device, such as a cell phone whether it be in a deep tunnel or at a distance from the transmitting pole.
BACKGROUND OF INVENTION
[0002]In 1997 in Washington, D.C., a bunk bed Hertzian sine cosine co-sine metal box springs experiment without the use of any electrical current was able to pick up radio waves, TV waves and all signals being passed within a one-mile radius of the largest communication triangle center. After two years of listening to sound waves bouncing between the bunk bed Hertzian sine cosine metal box springs design which picked up light wave and gravity transmitted communications, William F. DePree came to the conclusion that the ultimate antennae was based on a bunk bed Hertzian sine cosine box springs which operated with no electrical power source. Therefore, the true background of this invention in 1997 and the scientific design truth became a reality by the immense avalanche of advance research in visualizing the way the light wave travels along this Hertzian sine cosine interdigital electrodes complex oxides waveguide bunk bed. This is conclusively proved by the conclusive scientific documentation listed in the specifications above. Einstein's special theory of relativity and the Lorentz invariant and the Gauges invariant placed on a nano metamaterial vast miniature size universe development has now confirmed that the most perfect operating antenna for broadband or all receptions is based on a bunk bed Hertzian sine cosine metal box springs design which is composed of interdigital complex oxide electrodes. The use of left-handed metamaterials is sandwiching in between these stacked crystals with a frictionless helium-4 liquid crystal imbedded in between the surface crystal layering of both stacks. The incoming signal is received by the metal box springs waveguide which disentangles through the use of prisms becoming advantageous because the metamaterials reconnect, hold and separate each incoming surface wave rather than bulk waves so that attenuation can be lower resulting in potentially higher resolution from the scanning surface. When acoustic velocity is slower because smaller electrode devices and higher frequency transducers are now easier to fabricate, the metal box springs design will produce the superfine complex oxides superconductors and manmade metamaterials to reconnect and correct nature's gap, as shown in article by Yoshiro Ohmachi in the Journal of Applied Physics, Vol. 44, No 9, September 1973, pages 3928 to 3933, entitled Acoustic-optical Light Diffraction in Thin Films. Now the multi-layering metal box springs becomes an efficient type of interdigital wave electrodes of acoustic surface waveguides for folding and holding and reconverting the acoustic wave back into an electrical signal. The Riemann Hypothesis that computes the factorization of random primes to orderly zeros in the 1800's had mathematically configured prime numbers that produced a visual harmonic form. The Riemann Hypothesis is a mathematical statement that forms the design into a signal wave that decompose the primes into music, but what Riemann really discovered was the development through the use of zeta function that the prime number created the landscape of a nano antenna four-dimensional topography landscape of this flat metal box spring antenna design. Euler had made the surprising discovery that feeding an imaginary number into the exponential function produced a Hertzian sine cosine wave. Riemann could see that there was a way of mapping these zeros and saw how each of these points could be transformed by using the zeta function to create its own special wave. Each wave would look like a variation of the graph of an undulating Hertzian sine cosine function. The character of each wave was determined by the location of the zero responsible for the wave. The further north the point at sea level which is the metal box springs frame where the faster the wave corresponding to this zero would oscillate, as this wave is a sound wave, the note corresponding to a zero sounds higher the further north the zero is located in the zeta landscape. The Hertzian sine cosine-like waves that Riemann had created from the zero's in his zeta landscape reveled a hidden harmonic structure; this structure is the point movement of this box springs antenna, hidden in a sequence of a critical line, as shown in FIG. 1, #27, FIG. 2, #36 incoming incident wave, FIG. 4, #75 , #76, #77, #74, #79, FIG. 5, #91, #92, #93, # 94, #95, #96, #97, # 98, #99, FIG. 6, #104, FIG. 8, # 109, FIG. 9, #113, #116 is the mystical Ley Line which is now called memristor mencapacitor and meniductor passive component running through the landscape in a ½ configuration between, FIG. 10, #121 and #124. The north and south coordinates of each point at sea level are the frame holding the metal box springs controlling the folding of the frequency wave which is corresponding to a high note. The pickup in contrast from the east-west coordinate is controlled, as shown in FIG. 1 #27. Euler had learned how loud each note would be picked up at these coordinates, as shown in FIG. 1, #27, #29, FIG. 2, #36 and FIG. 10, #122. The louder the note, the larger the fluctuation of its undulating graph. The precise location of these points were arranged in a straight line running north to south through the landscapes, as shown in the invention in FIG. 1, #29 and FIG. 2, #36 . And every point at sea level in FIG. 1, #2, # 10, #20, #27, FIG. 4, #72, # 73, FIG. 5, #94, #95, FIG. 6, # 104 had the same east-west coordinate, equal to ½ of the quantum oval loop coupling constance. This ½ of the Venn overlapping is shown in FIG. 1, #29, FIG. 4, # 72, #73, #82, FIG. 9, #113, #116, FIG. 10, #119, #120, # 122, #124, #126. Therefore, the corresponding waves will be perfectly balanced so that each quantum oval loop will not be performing louder than any other. The first zero that Riemann calculated had coordinates of ½ 14.134725, steps. The next zero had coordinates of ½ 21.022049, which were lining up as if along some mystical Ley line which is used in this invention as a memristor size. Ley line. The distance, size and thickness of this Ley Line become a mencapitor's and a meninductor's passive component with memory between charged, current, and voltage flux in conjunction with the quantum oval loop that is running between the overlapping connection to the metal box springs and the oval loop that connects the coupling constance through the entire landscape, as shown in FIG. 1, #27, #29, FIG. 2, #36, FIG. 4, #72, # 73, #76, #82, FIG. 5, #86, FIG. 9, #113, #116. In this invention it is called the design of the metal box springs with an aperture of 20 mmx30 mm and 1 mm thick that will be used for an antenna. The Riemann proof solution lies in a visual nanodesign metal box springs metamaterial, antiferro magnetic development for the use of an antenna receptor in this metal box springs landscape. The Riemann's magic Ley Line, passing through ½ of all empty holes and quantum oval loop gravity and Hertzian sine cosine waves shown in this invention are based on the zeta function generally. In the book Once before Time by Martin Bojowald, pages 83-108, Carlo Rovelli and Lee Smolin give the name to the field in a superstructure called quantum loop gravity. This quantum loop gravity is not a new idea and has a background in a universal thought and now is being applied to this invention. What matters in this invention is the continuous coupling constance and the relationship between the quantum oval loop gravity that interlinks the process with no applied function until this invention of the metal box springs brings together the whole connective design with manmade metamaterials and ferromagnetic complex oxides to produce a complete outcome that creates a broadband antenna that applies to a size, dimension and thickness of a nano-design metamaterial woven structure.
BRIEF SUMMARY OF INVENTION
[0003]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 which is the transformation to this metal box springs and which is a gauge transformation, invariance of Maxwell's equation under gauge transformation is the metal box springs symmetry of two stacks design in 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 invariants. 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 with gravity in this miniature nano universe. Therefore, the gauge transformation together with Lorentz transformation of special relativity determined Maxwell's equations. The conclusion is that the metal box springs moves from global to local invariance in quantum mechanics and is the equivalent to the existence of the classical electromagnetic field described by Maxwell. Specifically, this design feature in the metal box springs is directly related to the Dirac confined radiation to a box. This metal box springs is the box associated with Dirac energy that crisscrosses diagonally in Maxwell's theory which gives the radiation as a superposition of countability of many normal wire-layered complex oxide modes which are the layered superconducting metal box springs and each normal mode design is the equivalent formally to a harmonic oscillator which is controlled by this metal box springs vibration from the idea of gravity and light associated with relativity of Lorentz 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 superconductor quantum oscillators in order for a new refluxtivity antenna. This process of refluxtivity motion is the folding back in upon its stacks dual deck layering on the nano-box according to Paul Dirac. The parallel north and south layerings attached to the metal box springs which contains energy bands that are obtained in the forbidden bands that produce second derivatives of space between the symmetry of miniature nano size thicknesses that forms the multiple spectral frequency ranges. As shown in FIG. 1, the entire design becomes the entire aperture and FIG. 10 shows the quantum oval loop that becomes coupling constance that connects the Hertzian sine cosine metal box springs design in the complex oxides movement in this band gap across the wire's energy levels spacing design and plane wave wire layering superconductors that produce the wide band transmission according to the metal box springs narrowing into the design shown in FIG. 10, which is called an interdigital electrodes quantum oval loop gravity structure, as shown in #119-#126 which is the space broken between the crossing symmetry and the surface powertrain of the Saint Andrew's diagonal matrix energy movement, as shown in FIG. 9, #118 and FIG. 10, #122. This symmetry predicts the phenomena of the unified field theory of events of combining the incoming light wave in association with gravity and electromagnetic waves that can be accomplished on a nanoscale dimension. The reason a four-dimensional system of a rectangular flat structure that houses a metal box spring waveguide resonator uses ferrite magnetic superconductors in a parallel repetitive design is because it produces a rectangular movement from north to south, west to east that is held along each beveled edge space and time that is folding the incoming light signal under in a reversal refluxtivity manner phase symmetry. These internal and external sectorial zoning metamaterial negative refraction fields exhibit very unique properties from nanoparticle dimensional thicknesses which are illuminated by the electromagnetic field and the energy sinking into the quantum oval gravity centers that create vortices with spiral energy flow line trajectories. These trajectories in the quantum oval loop region are seen in the nanoparticle's plasmon resonance, as depicted in the center of gravity sink, as shown in #29 which produces a zero order rediffracted beam, as shown in article in Physical Review Letters E, Vol. 74, 2006, Microwave whirlpools in a rectangular waveguide cavity with a thin ferrite disk, by E. O. Kamenetskii, pages 1-7. This bunk bed metal box springs design houses the entire method conduction modes as it transverses electric and magnetic field configurations referred to as the electric vector quantum loop gravity connection between the lower deck and the upper deck connection of FIG. 10, which is now called the transverse connection of electromagnetic vectors quantum oval loop gravity that travels perpendicular to the direction of the propagation, as shown in FIG. 10 between the hollow dome of the quantum oval loop gravity connector resonator which will house the entire energy bands that are thus obtained through this separated forbidden band area.