Quantum Broadband Antenna (Part 1 of 2)

FOR EDUCATIONAL USE ONLY

US PAT APP 20120212375
United States Patent Application
Title: QUANTUM BROADBAND ANTENNA
Document Type: Published Application
Published Application Number: US 20120212375
Published Application Date: 2012-08-23
Application Number: 12/932227
Application Date: 2011-02-22
Inventor(s):
Depree, IV, William Frederick, Washington, DC
Classification Information
International Classes (IPC 8): H01Q-1/38, B82Y-99/00
U.S. Classes (Original): 343/700 MS, 977/762
Drawing Pages: 6
Language: English
Abstract

The abstract core in this new antennae where acoustic surface waves strike the active surface states that are Hertzian sine cosine transparent piezoelectric and electro-optical acoustic substrate metal box springs is a Gauge transformation, invariance of Maxwell's equation under Gauge transformation is produced in this transparent nano metal box springs symmetry of two-stack design 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. This Gauge/gravity duality of anti-de-Sitter/conformal field of oval loop quantum gravity coupling constance in which the use of manmade metamaterials that reconnect nature's gap to produce the folding and holding of the breaking and expanding of various symmetries of AdS 4 of these superconducting metamaterials with sectorial zoning boundary selector separators at coordinate points indicated in the overlapping dome Venn diagram design of the oval loop quantum gravity near grazing angle of an incident that is reflected into the surface at #29 and #36. The conclusion is that the Hertzian sine cosine metal box springs design and new metamaterials transforms the frequencies selectors and transporters from global to local invariance in quantum mechanics is the equivalent to the existence of the classical electromagnetic field described by Maxwell, Einstein, Lorentz, Schrodinger, Heisenberg, Dirac, Gauge, Riemann, Hall, and Gauss.
Claims

Number of Claims: 8
What is claimed is:

1. In a 1 mm super-thin device for producing a quantum broadband frequency containment refluxtivity receiver-effect antenna, comprising: (a.) a transparent crystal metamaterial, complex oxides layerings of piezoelectric substrate fashioned into a surface rectangle 20 mmx30 mm aperture and a 1 mm thick dual-deck metal box springs that lies flat on to said devices such as cell phones. (a.) There are Abelian-Gauge gravity dual-deck stack layering crystal directional metamaterial sectorial zoning controlling paths carrying energy along said Hertzian sine cosine metal box springs wire design integrated to the quantum oval loop combination of said interdigital electrodes along a substrate plate form complementary composite with a quantum electrical vertical loop under layer of carbon wire connecting to the horizontal top deck of the metal box springs of said quantum oval loop interdigital electrodes introducing on the surface of said radiationally sensitively prepared substrate top plate of antenna that receives the incoming acoustic gravity light waves #6 in response to a very low electrical signal from said electrical signal source of the cell phone applied to said metal box springs interdigital electrodes #29 zero order rediffracted beam # 36 illuminating light beam from said light source introduced into said substrate #11-#33 through the edge of said top plate #27 through the empty hole establishing a running coupling constance down into the cavity of said prepared crystal according to prepared plate distance scales connecting to the metal box springs at #27 and # 29 zero order rediffracted beam #36 through a side adjacent to the side with said interdigital electrodes # 6 repetitively connected to the parallel complex oxide claddings alongside of the metal box springs design, said beam being directed at said side edge of crystal at an angle such that the white light beam is split into prismatic internal reflection near the grazing incidence of the entire active surface where the acoustic waves of entire rectangular box's embodiment waves are guided and generated and said wave glides its energy electrical plane on surface of magnetically sensitive geometric movement of the Saint Andrew's Cross that moves diagonally opposite the direction of acoustic waves, the input beam being split and drawn in through to the active surface edge that begins the folding edges under said crystal plates layerings in a zero order that travels through, to the layering of prismatic diffracted redirectional splitting off into color spectrum and on to the Hertzian parallel layering of the complex oxides stripes that create the different bandwidths segregations that travel down along the quantum oval loop interdigital electrodes. (a.) Quantum wire metal box springs made of a superconductor layered wiring design in a Hertzian sine cosine box springs bed, whether particles, devices arrays on or near the surface and edge to empty holes along the frame of said antenna layered multiple repetitive doped oxides create the different selection of bandwidths on the parallel wires distance in a wave design, which traps, receives, sends, records, holds, and folds said light signal down into the next plate layered deck form to hold said light wave signal and frequency modulation conversion on to this dual configuration antenna directivity diagram of charged carriers based on the strongly coupled ferromagnetic complex oxide and many-body anti-de-Sitter conformal AdS/CFT loop quantum gravity geometry and breaking boundaries in order for the Saint Andrew's energy-sensitive diagonal electromagnetics energy or energies in said control paths on top of both receptive decks, thus forming the retrodiction refluxtivity positive negative electric-optical holding and folding: of the Hertzian sine cosine light waves in a controlled conformal design by the Hertzian sine cosine waveguide position to align with a Hertzian sine cosine box spring directional magnetic metamaterial doped crystals multi-layered design. The design pattern itself is a running, traveling coupling constance down into the crystal cavity which produces the unified field design distance scales in order to create the connective wave associated with manmade metamaterials to enable the light signal to never disconnect from its applied device such as a cell phone even if the phone is in a deep tunnel or in an out-of-the-way place. Whereby said metal box springs embodiment of the specifications and in these claims that said broadband antenna radio signal will not disconnect from the invention and the device that said invention is connected to that which is being applied to in order to hold the incoming radio signal because the Mossbauer effect is now corrected through the use of manmade negative refractive directional metamaterials based on the fact that light emitting signals in this mismatch of nature is now being corrected through the means that uses directional metamaterial magnetic sectorial zoning of manmade metamaterials left-handed double refracting negative optical corrective refractive connection produced by metamaterials that re-connects natures frequency mismatch between the absorptions magnetic permeability of the left-handed optical metamaterial and dielectric permittivity emission in order to have unnatural correction on both mismatches in order to make these two natural and unnatural mismatches re-connect in position altitude separation breaking disconnect to holding and connecting said broadband frequencies is now re-connected optically through the use of said metamaterials to magnetically hold on the metamaterial sectorial, directional boundary in order to connect and re-connect the re-matching of the said spectral frequency broadband for it then to continue on its processed phase through this media that enables said signal to never disconnect from the cell phone whether in a deep tunnel or out-of-way places to never disconnect the transmission signal from said cell phone. Whereby said superconductor wire layered alongside are complex oxides can serve as the manipulation of the broadband spectrum upon first contact of light wave conversion convection to the horizontal and vertical flat rectangle frame metal box springs surface of this antenna is not a narrow aperture but is a wide aperture of said box springs and which 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. Whereby the quantum electrical vertical loop continuous coupling constance induced by electric current on the lower deck and optical metamaterial of the metal box springs antenna in combination with electro-magnetic and gravity coupling to the upper deck and the complex oxide Hertzian wave pattern of superconductor wire properties of said crystals design box springs connecting incoming signals that can be manipulated through the crystal oxide mixture adjustments that are parallel aligned to the metal box springs and the energy transformation between light signal and complex oxides selectors and metamaterial directional holding the spectral paths, and Whereby said complex oxides running parallel to the metal box springs for selectivity of the full broadband spectrum that is aligning onto the design parallel layered oxides that are embedded in the two decks of crystal plate layering in combination in between, the boundary separation areas and the directional magnetic negative refractive metamaterials to serve as a selective holding and folding upon the turning clear light into color prism beams splitting effect which is capable of altering the electro-optical frequencies through contact with the layered wire metal box springs that travel into the substrate complex oxide parallel design and down into the cavity of the directional magnetic metamaterials for holding and folding of said light signals are trapped in sequence along the sectorial zoning separation line that is the area of the holding and folding of said light wave and is waiting to be bumped into the crystal electrodes complex oxides and double-mixed iron-based dome oval overlapping of the quantum oval loop and the quantum vertical lower-deck electric connection to FIG. 10 in real time based on the superconducting electricity being applied for suppression, compression and expansion process onto the metal box springs and parallel complex oxides by use of electric, magnetic and gravity source connecting to radational energy of the incoming light wave signal on to the light sensitive receptive surface coupling onto the Saint Andrews Cross movement of energy across said surface and into all said loop quantum gravity electrodes in the rectangle coupling constance field of complex oxide parallel Hertzian control paths, selectors of said paths and Whereby this quantum critical point of the quantum oval loop in FIG. 10, #122 region and point of said line # 123 and FIG. 9, #116 line phase transition coupling that separates on said gap between metal box springs and quantum oval loop is the pseudogap transition crossover phenomenon and electronic holding of the incoming light signal between this gap which produces a pair of oppositely directed magnetic movements, in FIG. 4, #80 and #84 that holds said incoming light signal in place between the two decks and moving of incoming signal controlled by the Saint Andrews cross light-sensitive electro-optically magnetically placing the incoming said signal on to the metal box springs design. Whereby these three design modes of connective fluctuations between gravity state and electromagnetic state is controlled by manmade metamaterials that direct said finite energy at all point movements that are done in this quantum oval loop transition, in FIG. 10. This mode of fluctuations between the complex oxides parallel design and the metal box springs Tc superconductors wires and the different level of charged carriers of said electron connecting onto said directional negative refractive metamaterial sectorial zoning of the magnetic polarized opposite neutron that is being controlled by manmade metamaterial properties in the strange phenomenon zone that reconnects what nature separates from the position below the metal box springs and quantum oval loop connection phase and the d-wave symmetry of the metamaterial electron magnetic structure in combination with the complex superconducting phase to control the folding and holding of the said incoming light signal. Whereby the light wave Hertzian sine cosine in said metal box springs design can be directed, folded, held in place on the folds to receive, send, record, decipher which never disconnect according to the effect between the complex oxide superconductor separating light into prismatic color frequencies, which are re-arranged in two-deck process dimensional structures, the sectorial boundary zone separations of magnetic metamaterials become selectors and holders whose characteristics are electro-optically programmable in real time by means of the diagonally spatial boundary movement separating between the Hertzian wave in the loop oval quantum gravity junction which brings into play the full field design that connects the said energies in said control transition transistors paths.
2. The device of claim 1 wherein said control transition electrodes and transistors paths are electrical magnetically clear complex metal oxide parallel Hertzian crystal wires formation, whether conductors, semiconductors, or superconductors and a combination in design, which carry electro-optical voltages.
3. The device of claim 1 wherein said control transitional transistors complex oxides interdigital electrode paths of the Hertzian sine cosine metal box springs are complex oxide transparent doped superconductors crystals and parallel the wire box spring design that transports multiple light spectrum energy ranges that span radio waves, microwaves, submillimeter, infrared, terahertz, visible light, ultraviolet x-rays and gamma rays, all within this Hertzian complex oxide selectors that encompass these broadband functions in the metal box springs wave design antenna.
4. The device of claim 1 wherein said control transitional electrodes and transistors paths range from x-rays radio waves, microwaves, submillimeter, infrared, terahertz, visible light, ultraviolet x-rays and gamma rays, all within this broadband flat metal box springs Hertzian antenna.
5. The device of claim 1 wherein the quantum broadband antenna are a transparent doped superconducting layered crystal design imbedded in a repetitive design form on the line and opposite bottom substrate design of the metal box springs, creating interdigital electrodes.
6. The device of claim 1 wherein the quantum nano broadband metal box springs produces multi-kinds of frequency dividers, frequency doublers, frequency relay, frequency scanner, holder of refluxtivity of the light wave being trapped in between the oval loop quantum gravity coupling constance connector that connects to the dual stack in a unified field design of a Lorentz invariant and Gauge invariant process.
7. This directional negative refractive metamaterial magnetic boundary left-handed separator spin up and spin down design method is for controlling the said light signal wave for process folding and holding conversions and selectivity of different spectral frequencies through the use of these controlling complex oxide dopants Hertzian design and said directional magnetic metamaterials sectorial zoning in the interior cavity of this bulk stack plates comprised of said directional metamaterials boundary separators and holders called sectorial zoning opposite magnetic areas of said crystal, comprising: (a.) Confining and suppressing of charge carrier in layered solid medium is the piezo-electric crystal, and said compression of said light wave signal in said crystals generates an electrostatic voltage across the Saint Andrews cross making a cross upon which electric current will travel across said surface which will conversely produce application of a small electric field which will cause the crystal to expand and contract which the metal box springs will respond to the massive incoming light signals gravity through to said frictionless helium-4 liquid crystal in which said substrate is immersed in a dimension smaller than the De Broglie wave length of said carriers, such that the carriers that the folding process of refluxtivity re-emission of the backward quantum wavelike behavior created in both decks that are electro-magnetically held and flattened into a compressed sectorial zoning area of the directional metamaterial magnetic reversal boundary layering lines. (a.) Carrying electro-optical energy through loosely doped empty holes; these 36 empty holes are toroidal dipolar magnetic holes used to produce toroidal rotation symmetry to rotate polarization of the incoming light signal, coupling constance connection of negative index of refraction, interacting between electrical currents producing toroidal monopoles in all the 36 empty holes on the edge frame of said metal box springs grid that now is connected to and by the spring hooks. This was reported in the Science article, “Toroidal Dipolar Response in a Metamaterial” by T. Kaelberer, 10 Dec. 2010, Vol. 330, pages 1510-1512. The article on page 1510 specifically depicts the empty holes in FIGS. 1, A, B and C, doped wires, doped chirial springs, doped quantum electrical vertical loop metal wire waveguide and doped crystal high temperature superconductor conduits to said carriers while embedded between the transparent solid liquid helium-4 gas which optically converts in conjunction with complex oxides, Hertzian wave guide down into said directional metamaterials with said energy directly contacting into the cavity of the negative refraction of said metamaterial magnetic reversal boundaries to reconnect what nature disconnect through the said frequency selectors and converters to hold said light signal for said signal to never disconnect from said device. Whereby said carriers are formed by configuration conversion Hertzian waveguide sine cosine metal box springs parallel cladded complex oxides which are capable of serving as programmable dopants to alter the incoming electro-optical selection of frequencies in multiple array combination with manmade directional metamaterial magnetic line spatial gravity compression, expansion, and linear contraction of said metal box springs and metamaterial substrate plate crystals in real time, and Whereby a multi-parallel cladded complex oxides dopened-crystal-layered metal box springs method in design is combined, creating a means for producing the selective broadband frequency ranges all within a flat rectangular aperture whose electro-optical frequencies are divided properties in the full spectrum range by said magnetic, gravity electro-optical chemical dopent properties materials that will produce multi-kinds of frequency selectivity simultaneously and massively across the full spectrum frequency range modulation that covers the full field spectrum phase modulation taken from the scanning of the prism-opal top surface to the reflective color prism separators that travel and connect to the quantum oval loop coupling constance to create a nano-miniature universe in this unified field design phenomenon on a nano-micro-macro scaled design imbedded in a transparent crystal plate.
8. The method of claim 6 wherein the means of confirming said charge carriers of the multi-layering complex oxide superconductor wire configuration in a repetitive parallel design of this metal box springs design that produces the holding, folding and reconnecting what nature disconnects; these negative refractive directional metamaterials reconnect to produce the quantum broadband full spectral line processing on this antenna; and said conduits are consolidated into a coupling constance transition translational onto the directional negative refractive metamaterial substrate that is a transparent crystal stack for holding and folding to which said quantum broadband design is attached in a complete design to produce a new antenna aperture with no outside or inside interference and no improper entanglement of frequencies on the spectral ranges with manmade metamaterials that enable the follow through conduction in order to hold and fold which this antenna device is claiming.
   Specification
   CROSS REFERENCES TO RELATED APPLICATION
   [0001]In this invention the metal box springs and constance coupling quantum oval loop design become an electron beam forming combination waveguide to the incoming collapsing light signal. This combination material action responds to the complex oxide stripes in order to produce high-frequencies radio transmission due to the design combination of man-made metamaterials. In combination with electro-magnetic superconductors, the electron beam forming waveguide is sandwiched in between helium-4 gas, which is a 1 mm thick wafer. Even though this is a complex design, it is cost effective because it is a 1 mm thick laminated manufacturing process. This metal box springs is a beam-forming waveguide of total transparency connecting onto the mirror solid state and plasma-oriented gas dual deck reflection that manipulates the high frequencies, radio waves down into the correcting phase holding and folding of the metamaterials sectorial zoning area to accomplish the manmade reconnection of the collecting electrons density that completes the constance coupling beam forming the shape of the metal box springs design. The said incoming light signal proceeds down into the quantum oval loop connective coupler transistor to reflect into the sectorial zoning area of the boundary holding and folding of the signal in place along the line edge reflective dual deck transparent beam forming waveguide for the transmission to never disconnect from the device. This new antenna invention of upper and lower decks binds ionized gas to the solid state gas helium-4, metamaterial, superconductor striped complex oxides metal electro-optical-magnetic metal box springs antenna with an aperture receiver area of 20x 30 mm which is 1 mm thick which will cover this full plate area and will take in the full spectrum from low 30-to-3,000 kilohertz to 30-to-300 gigahertz transmission. The full spectrum transmission conducted onto this metal box springs waveguide will encompass 500 terahertz optical metamaterial waveguides below the metal box springs as a base substrate. The aperture distance and size of this antenna surface will eliminate any spillover of radiation or disconnect as there is with a small omnidirectional pole antennas. The first incident of the incoming light wave will be the gravity bounce onto the top plate surface beam forming waveguide connecting on to this metal box springs. This metal box springs is selecting, confining and channeling a propagating beam of light on to the surface of this rectangular antenna receiver frequency relay scanner which uses acoustic surface waves made of complex oxides utilizing a transparent left-handed negative refractive metamaterials substrate in which the metal box springs and dual receiving deck traps, holds, computes, and folds into the edge of the crystal layerings of the directional metamaterial manmade in order for the input gravity light wave to never disconnect from the applied device, such as a cell phone. The concept of coupling constant relating to design parameters that are used to characterize the strength of forces in this invention are actually coupling constant that vary with the distance scale coordinates of the physical process in which they are measured. This phenomenon is both well established experimentally and predicted by current theories and is known as traveling coupling constance. This is found in this invention that claims the incoming incident wave will not disconnect from the apparatus of the metal box springs and establishes that this design is a running of the coupling constance down to distance scales much shorter than can be accessed experimentally. This design invention model is within this running of the coupling constance model of particle physics. This design is in the description of the Abelian gauge theory of strong and weak forces which is described by non-Abelian gauge theories. This invention describes the nano-unified field design theory that is applicable at subnuclear distances in the parameter scale of a rectangular 20 mmx30 mm flat aperture form. This is established in articles in Nature Vol. 468, 4 Nov. 2010 News & Views, Gravity's weight on unification by Giovanni Amelino-Camellia pages 40-41 and the article, Quantum gravitational contributions to quantum electrodynamics, by David J. Toms, pages 56-59. This design produces a wide frequency band with low losses because the use of transparent complex oxides crystal fiber properties creates extremely large bandwidth that gives the ability to transmit very short 10-12 seconds optical pulses; this makes the metal box springs capable of carrying vast amounts of spectral signals. The Physics Today Oct. 2010 article Shaping optical space with metamaterials by Martin Wegener on pages 32-36 describes the two legs of the electrical and magnetic process of this design. This Hertzian sine and cosine wave in Fourier analysis depicts the design of metal wires of this layering system in which the multiple wires reinforce each other and where each particle wave is parallel cladded complex oxides are superposed upon the prior-to-1940-old-style metal box springs design used as a nano oxide complex wire guide system induced by electrical current to flow onto this design pattern to guide the wave incident onto this antenna system. The Physical Review Letters, Vol. 102, 17 Apr. 2009, pages 1-4, Experimental and Theoretical Evidence for Subwavelength Imaging in Phononic Crystals by A. Sukhovich, supports the design concept of the device presented in this invention for a metal box springs design which consists of multiple phononic crystals exhibiting negative refraction. The article in the October 1972 issue of Scientific American, Vol. 227, No. 4, pages 50-68, Acoustic Surface Wave, by Gordon S. Kino and John Shaw, and this invention exhibit multiple complexities that concern processes such as hold, fold, receive and disentangle signals in communication receiving antenna systems. In this device electrical signals are used to excite Rayleigh waves, as they are now called, on the surface of a crystal a few centimeters long and one or two millimeters thick. The acoustic surface waves excited in this manner can be employed to filter one signal from another, to amplify weak signals and to store signals for use at a later time. It is also possible to do certain things with acoustic surface waves that are difficult to do with simple electronic components, such as recognize a signal of known form. Physical Review Letters, Vol. 93, 14, 1 Oct. 2004 Trapped-Particle Instability Leading to Bursting in Stimulated Raman Scattering Simulation by S. Brunner concerns design of ion-acoustic waves in electron plasma waves that distribute on a fixed Cartesian mesh grid which are the metal box springs in phase space. All waves are ruled by phase process of a kinetic effect nonlinear trapping of particles by the longitudinal waves in the plasma ion-acoustic and electron waves and predict Fourier space by the presents of this sideband macro-particle model as presented in this article and in the design of this antenna device. This design proves the effectiveness of the wave transport receiver of this metal box springs antenna process. The metal box spring is flat but when the incident light hits the surface it bends to a curved metal box springs movement. In this design process it is necessary to delay and fold the incoming incident wave in order to hold in the metamaterials which is to be put in a refluxtivity process. The incoming acoustic-surface-wave refluxtivity delay holding and folding excels in this metal box springs design. Not only can it be used to store the signal; it can also be coded to recognize certain signals and to compare one signal with another because of folding, holding and refluxtivity of the incoming wave between the rectangle crystal metamaterial layerings. The reason why this metal box springs design is the simplest type of elastic waveguide is that in the longitudinal wave the directional negative refraction metamaterial substrate is ideal to alternately direct, compress, expand, separate, and select on a sharp line magnetic boundary level. Also in this metal box springs design a second type of acoustic wave is the transverse, or shear wave, in which directional negative refractive metamaterial particles oscillate from side to side at right angles in the direction of the acoustic signal. The third principal type of wave, which is the Rayleigh wave, exists only near the free surface of a solid. The Rayleigh is a composite wave incorporating both shear and longitudinal components—which are required to satisfy the boundary conditions—and the force normal to the surface is zero. This metal box springs waveguide enables the waves to travel along the metal box springs surface design of the solid substrate flat crystal, much like the rippling surface of a pond. This quantum oval loop where gravity responds to the presence of surface energy density on a higher-to-a-lower position which connects on this metal box springs wire fabric. This design in nano space-time begins to curve on the connective bounce of the incoming light signal as fluctuations in energy decohere, gravity responds to the fluctuations in the energy of the quantum metal box springs bands that radiate down into the cavity of the quantum oval loop center as the light signal becomes a superposition antenna process. Thus the rapidly changing electrical signal is applied to the directed negative refractive metamaterial and the sandwich piezoelectric material. This material will vibrate in unison with the electrical signal, generating a sound wave that will bounce at the center of gravity, as shown in FIG. 1, #29 zero order rediffracted beam zero order rediffracted beam, and spring back into the refluxtivity position onto its folding and holding edge under the rectangle crystal layerings of the metal box springs design. As reported in Science, Vol. 329, 27, August 2010, pages 1043-1047, Strange Metal Transport Realized by Gauge/Gravity Duality by Thomas Faulkner and as shown and stated in this new antenna invention, FIG. 1, #29 zero order rediffracted beam zero order rediffracted beam and FIG. 10, #119 through # 126, exotic systems such as the strange metal phase of cuprate superconductors and heavy fermion materials near a quantum phase produce the effects onto the waves that are ruled by phase transitions. FIG. 10 is the core in the embodiment, 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 iron and copper oxide 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 connective designs to produce the electric holding of the incoming incident wave that is being directed by the Saint Andrews cross 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 constance coupling to the lower deck of the quantum electrical vertical loop connection in FIG. 10, # 123 and #126. This is shown in the article Two-dimensional electron gas with universal subbands at the surface of SrTiO3 by R. Weht, Nature, 13 Jan. 2011, Vol. 469, pages 189-193. In this two-dimensional phases of electron matter an oxide interfaces creates the coming together of #126 through the oval at #123 and #122 which is also shown in the above-mentioned article on page 190, FIG. 1 diagrams. This gap transition is a gradual crossover between all quantum oval loops of thermodynamic and electric transport properties. As stated in this invention, the dome yttrium barium in which the quantum critical point is cladded on to the top of the oval, creating a double overlapping in which to create a loop dome-shaped superconducting design region of this phase, as depicted in FIG. 10, #122. This dome extension point placed on the loop region would occur 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. This double overlapping dome creates the expansion and collapse between the upper deck of the metal box springs and the contraction of the lower deck into the quantum oval loop of this counterforce of this full field combination of attracting gravity which drives the expansion coupling constance inflation that sandwiches the incoming light signal off of the complex oxides metal box springs wave guide. 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 which is the connection to the metal box springs and the quantum oval loop as shown in FIG. 10, #119, #120, #125 and in the lower deck quantum electrical vertical loop, as shown in #126. This produces a long-range order phase in which pairs of quantum electrical vertical loop flows within each of the materials unit cells or upper and lower deck which is called quantum oval loop connection to the quantum 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 movement; therefore these modes of fluctuations from these design materials across the sectorial zoning of opposite magnetic flow in nature are being controlled by the energy of Saint Andrews cross finite movement across the quantum oval loop and lower deck quantum electrical vertical loop, as shown in FIG. 4, #76, #79 overlapping #80. As shown the Chandra Varma, et al., article, FIG. 2, 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 connection shown in FIG. 10, #121 and a positive Venn diagram overlapping connection 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 iron and copper oxide CuO material onto the metal box springs overlapping the quantum oval loop depicted in the overall design of FIG. 10 and the electron current vertical loop shown in FIG. 10, #126. This metal box springs design is being used as an anti-de-Sitter/conformal field theory correspondence, making the framework for non-Fermi liquids no longer a theory but a reality. The loop oval quantum gravity in FIG. 1, #29 zero order rediffracted beam and oval loop quantum gravity in FIG. 10 are the connection to the lower energy behavior and the two decks in this antenna are found to be governed by a nontrivial infrared fixed point shown in FIG. 1, #29 zero order rediffracted beam. This metal box springs is a nano-miniature universe which includes profound connection between gravity and unified field many-body systems, resulting in the emergence of a new metal box springs design that produces strongly coupled many body unified design systems which this article calls the anti-de-Sitter/conformal field theory AdS/CTF correspondence that relates to the electrical, the optical and gravity in a design curved flat dimensional anti-de-Sitter AdS d+1 dimensional quantum field theory defined on this directional negative refractive metamaterial boundary. The oval loop quantum gravity in FIG. 1, #29 zero order rediffracted beam is a miniature nano oval curved geometry dynamic of the boundary theory at finite temperatures and density. By using metal phase of the cuprate high-temperature superconductor wires with applied unified field design creates unusual transport properties different from those of a normal metal and is dubbed a strange metal fluxuation design. This metal box springs is governed by a quantum critical point at low energies and curved design point behavior at the rim of the loop quantum gravity oval design as shown in FIG. 10, called interdigital electrodes oval loop quantum gravity design, #121, #123, and #124. The use of AdS/CFT correspondence space-time conformal symmetry in this metal box springs design and metamaterial substrate boundary manipulation of suppressed superconductors complex oxides placed alongside cladded on to the wire design create a miniature global multiple striped parallel Hertzian nano-universe in which the gauge field can be identified with the box spring superstring multi-striped design spatial aperture antenna. This oval loop quantum gravity is filled with AdS, which pulls all matter towards it center of gravity; thus the particle will eventually fall back toward the quantum gravity's oval loop and lower deck quantum electrical vertical loop wave which connects to the oval hole, as shown in FIG. 1, # 29 zero order rediffracted beam and FIG. 10, interdigital electrodes oval loop quantum gravity, #123. Using AdS4, the boundary scaling and Lorentz symmetries are broken and allows the Saint Andrews cross to pass across the breaking of boundary symmetries enabling a free path for the energy to be transported and involves the time and radial direction of each oval loop quantum gravity oval transistor. As shown in the above-cited article reported on page 1044, diagram FIG. 1, this vertical axis is in the same redial direction as the oval loop quantum gravity shown in this invention FIG. 1, #29 zero order rediffracted beam and the line #27 horizontal arrow line across the metamaterial substrate boundary in the lower deck of this antenna are both one and the same. Also this same article, on page 1045, diagram FIG. 3 ( a)(b) depicts this oval loop quantum gravity oval propagator specifically numbered in this invention in FIG. 10, interdigital electrodes oval loop quantum gravity, #119, #125. This oval loop quantum gravity and the box springs are similar to a Venn diagram overlapping dome where the X's are marked in this article in diagram (b) which shows the near horizon AdS2 region and associated connective symmetries of this many-body field, indicating that at low frequencies (w, <<u), boundary system develops an enhanced symmetry group including scale invariances and, in particular, the oval loop quantum gravity is controlling the binding, releasing and refluxtivity folding phases of this conformal metal box springs. This power source of direct current being applied along a universal scaling phase is fixed by time reversal symmetry to a slower refluxtivity Lorentzian miniature nano large class of unified field many-body elements brought together in this design. The unified field many-body design elements encompass this AdS gravity dual connective quantum metal box springs design system. Therefore, the near-horizon AdS2 region and the fluctuations are critical for momentum in this strange superconducting state in the boundary of this oval loop quantum gravity oval design that brings gravity down into its optical cavity and the electrical vertical Hertzian connective processes to connect to suppress the superconducting transition into this design transistor process. This phenomenon is related to the coupling between FIG. 1, #8 and FIG. 10, interdigital electrodes oval loop quantum gravity, # 121 the line metal box springs and the oval loop quantum gravity combined make an interdigital electrodes system. This incident evanescent waves and a bound slab mode of photonic crystal lens and metal superconducting wires leads to amplification of evanescent waves by the design slab mode. These electromagnetic wave wires are imbedded between flat substrate crystal lens exploiting negative refraction of the incident waves in left-handed refractive directional metamaterials and photonic complex oxide wire imbedded in substrate crystals. These crystal metal box springs wire guides have a multiple layerings made of complex oxide coatings cladded on both north and south sides of the metal box springs wire waveguides and are attached to the metamaterial crystal substrate and immersed between this upper deck and lower deck is a helium-4 gas because helium-4 has a frictionless behavior, as shown in FIG. 3, # 62. This article in Physical Review Letters, Vol. 102, 17 Apr. 2009, Charge Excitations in the Stripe-Ordered by S. Wakimoto explains the parallel strip cladded complex oxides that are attached to the metal box springs wire design as La5/3 Sr1/3 NiO4 and La2 negative x(Ba,Sr)x, CuO4, the superconducting complex oxide compounds on both north and south line of the metal box springs. In explained in the article Light-Induced Superconductivity in a Strip-Ordered Cuprate, by T. Takayama, Science, Vol. 331, 14 Jan. 2011, pages 189-191, the reason this invention is using these high-temperature culprate superconductors is the interplay between one dimensional striped spin order and charge order compound inner layer of coherent transport in the c-axis optical properties. The metal box springs will be composed of many complex oxide stripes placed on the north and south alternating sides of each Hertzian wave metal box springs. The charged excitations in stripe-ordered in 214 compound La5/3 Sr1/3 NiO4, in order to create a higher pitch, is place on the north side of each of the repetitive metal box springs wire design located in FIG. 1, #5 and ⅛ doped La2−x (Ba,Sr)x, CuO4 is on the south side of the metal box springs wire design shown in FIG. 1, #5 which correspond to the momentum transfer corresponding to the charge stripe spatial period both for the Saint Andrews cross diagonal energy flow nickelate and parallel cuprates stripes cladded alongside the Hertzian waveguide line. The concept stripes used in this invention is conveyed in Letters, Nature, 2 Dec. 2010, Vol. 468, pages 677-680, Fluctuating stripes at the onset of the pseudogap in the high-Tc superconductor Bi2Sr2CaCu 2O8+x by Colin V. Parker. These complex superconductors are mentioned in the article Observation of Half-Height Magnetization Steps in Sr2RuO4, by V. Vakaryuk, et al., Science, 14 Jan. 2011, Vol. 331, pages 186-188. As explained in this article and as demonstrated in this invention, the Meissner effect is producing a phase of superfluid helium combination which is the combination which produces a Meissner response of the superconductor placed in this design and is also depicted in the visual component in the FIG. 1 diagram in this Science journal article. The analysis of these stripes establishes the phase selective coherent properties that are produced in the design metal box springs layering cladding for multiple frequency waveguides for the correct selection modulation behavior that produces the multiple selection position of the spectrum frequency light signal classification production. The metal box springs design is a multiple layering striped cladded coatings on the nano-crystal superconductor wire system. The superconducting core wire system alternates alongside of each other with nano-size silver and gold wire systems as shown in FIG. 1, #5 throughout the entire wire mesh grid metal box springs located on the top deck of antenna. These multiple transparent strip coatings are placed on the alternating north and south sides of the metal box springs of superconducting complex oxide crystals that are only separated by each different complex oxide boundary because each complex coating interacts with each other's chemical oxide to enhance the process. This coating lamination cladded on to superconductors on the north and south sides of the wire will be repeated with alternating different chemical complex oxide transparent metals to superconductors for different transmissions pick-up process. According to Physical Review Letters, Vol. 102, 16 Jan. 2009, Perfect Mirror Transport Protocol with Higher Dimension Quantum Chains by Gerardo A. Paz-Silva, and also in this invention, the borderline mixing of the complex oxide scheme works on a continuous variable nearest neighbor of each oxide closest to the Hertzian wave running parallel to the coupled system of the metal box springs design, producing a final transference selection quantum state which is perfectly spatially mirrored midpoint of the waveguide transport. This waveguide is a continuous variable quantum design state driven by superconducting complex oxides attached to coplanar waveguides transport when coupled with switchable Cooper pair boxes, as shown in FIG. 3, #57 and FIG. 4 #82, # 80, #84, FIG. 5, #89, #92, FIG. 9, #118, #116, FIG. 10, interdigital electrodes oval loop quantum gravity, #119 through # 126. This multi-complex oxide metal box springs layering quantum transport will be capable of transporting large full-range frequencies entangled broadband spectrum of quantum information frequencies with perfect fidelity and operate with the minimum of external or internal control on this crystal higher dimensional quantum system. The use of directional negative refractive metamaterials will create a perfect lens mirror transport that will retain the incident wave coming into the aperture of the entire surface of the metal box springs design antenna. As shown and discussed in 2007 article Physical Review-E, Vol. 75, Curved Structures in