CN1797839A - Microwave left-hand material containing forbidden band - Google Patents
Microwave left-hand material containing forbidden band Download PDFInfo
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- CN1797839A CN1797839A CN 200410073520 CN200410073520A CN1797839A CN 1797839 A CN1797839 A CN 1797839A CN 200410073520 CN200410073520 CN 200410073520 CN 200410073520 A CN200410073520 A CN 200410073520A CN 1797839 A CN1797839 A CN 1797839A
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Abstract
The invention is related to microwave left-hand material, especially to microwave left-hand material of containing forbidden band. At present, there is a transmission peak i.e. left-hand transmission peak in a frequency range of microwave transmission curve for all microwave left-hand materials. The microwave left-hand material in the invention is composed of metal aperture resonant rings etched on base plate and metal wire. Unit of the material is structured as two sets of identical metal aperture resonant ring and a metal wire with length, where three sets of identical metal aperture resonant ring can be placed along axial in equidistant. Adjusting relative position between two sets of identical metal aperture resonant ring and a metal wire can prepare microwave left-hand material of containing forbidden band. Using the left-hand material can produce new type microwave device such as filters etc.
Description
Technical field the present invention relates to a kind of left-handed materials, particularly a kind of microwave left-hand material that contains the forbidden band.
Background technology left-handed materials (left-handed metamaterials) is the non-existent artificial composite structure material of a kind of occurring in nature, dielectric constant and magnetic permeability are simultaneously for negative in a certain frequency range, the electromagnetic phase velocity of Chuan Boing is opposite with the group velocity direction therein, thereby present the optical characteristics of many novelties, as unusual Doppler effect, unusual Cherenkov effect, perfect lens effect, negative refraction etc.Thereby there is important use be worth in fields such as radio communication, hypersensitization transducer, diagnosis imagings.At present the microwave transmission curve of the designed left-handed materials of researcher is that a transmission peaks is arranged in a certain frequency range is the left-hand transmission peak, and this has brought significant limitation for its practical application, is difficult to the realization bandreject filtering if be designed to filter.
Summary of the invention the purpose of this invention is to provide a kind of microwave left-hand material that contains the forbidden band.Go up etching three groups of same metal split ring resonators array and the array of metal lines of its length at polytetrafluoroethylene fibre substrate ( Teflon ) or epoxy glass fabric fibre base plate ( Glass-epoxy ) for can equidistantly placing three groups of same metal split ring resonators along its axis; Like this Zhi Bei left-handed materials as shown in Figure 1 its microwave transmission curve for a transmission peaks is arranged in a certain frequency range is the left-hand transmission peak; Keep that array of metal lines is constant only to be replaced the 3rd group of metal openings resonant ring with the room; Like this Zhi Bei left-handed materials as shown in Figure 2 its microwave transmission curve show that there is the forbidden band in the transmission peaks zone leftward; its microwave transmission curve of left-handed materials of being made by this structural model shows that all there is the forbidden band in the transmission peaks zone leftward.The construction unit that contains the microwave left-hand material in forbidden band is that two groups of same metal split ring resonators and its length are equidistantly to place the metal wire of three groups of same metal split ring resonators along its axis as shown in Figure 2; And the metal openings resonant ring can be hexagon; Square, circle. be respectively etching two groups of same metal split ring resonators array and the array of metal lines of its length for can equidistantly place three groups of same metal split ring resonators along its axis on the two sides of a substrate; Perhaps at etching two groups of same metal split ring resonators array on certain one side of a substrate and on certain one side at another piece substrate of same material its length of etching for can equidistantly placing the array of metal lines of three groups of same metal split ring resonators and with two substrates stacks, can be made into the different microwave left-hand materials that contain the forbidden band by adjusting metal openings resonant ring from the relative position h of metal wire along its axis.
Description of drawings
Fig. 1 does not have the microwave left-hand material sample in forbidden band
Fig. 2 contains the microwave left-hand material sample and the construction unit thereof in forbidden band
Fig. 3 does not have the microwave transmission curve forbidden band and that contain the microwave left-hand material in forbidden band
Fig. 4 on a polytetrafluoroethylene fibre substrate two sides respectively etching metal openings resonant ring and metal wire and on an epoxy glass fabric fibre base plate two sides etching metal openings resonant ring and metal wire and relative position all are the microwave transmission curves of the microwave left-hand material that contains the forbidden band of h=0.20mm respectively
Etching metal openings resonant ring and metal wire and relative position are respectively h=0.10mm, h=0.87mm, the microwave transmission curve of the microwave left-hand material that contains the forbidden band of h=1.87mm to Fig. 5 respectively on a polytetrafluoroethylene fibre substrate two sides
Fig. 6 etching metal openings resonant ring and metal wire and its stack and relative position be respectively h=1.80mm, h=1.95mm, the microwave transmission curve of the microwave left-hand material that contains the forbidden band of h=2.20mm respectively on two epoxy glass fabric fibre base plates
Fig. 7 on a polytetrafluoroethylene fibre substrate two sides respectively etching metal openings resonant ring and metal wire and on two polytetrafluoroethylene fibre substrates etching metal openings resonant ring and metal wire and all be the microwave transmission curve of the microwave left-hand material that contains the forbidden band of h=0.10mm respectively with its stack and relative position
Embodiment
Mode one: adopt the circuit board lithographic technique, two groups of same metal copper of etching split ring resonator array on certain one side of polytetrafluoroethylene fibre substrate that a thickness is 1.50mm or epoxy glass fabric fibre base plate, its center distance is a=3.00mm-10.00mm, the spacing of two groups of metallic copper split ring resonators is d=0.10-0.50mm, the inscribed circle diameter of interior ring and outer shroud be d
1/ d
2=0.40-0.75, opening are g=0.10-0.50mm, and live width is c
1=0.10-0.50mm, thickness are t=0.02-0.04mm; Its length of etching is for can equidistantly placing the copper lines array of three groups of same metal copper split ring resonators along its axis on the another side of same polytetrafluoroethylene fibre substrate or epoxy glass fabric fibre base plate, its center distance is a=3.00-10.00mm, length is L=6.00-10.00mm, and live width is c
2=0.10-0.50mm, thickness is t=0.02-0.04mm, the microwave transmission curve of the microwave left-hand material that is prepared by this mode shows that in its zone, left-hand transmission peak the forbidden band is arranged, and makes the different microwave left-hand materials that contain the forbidden band by regulating the metal openings resonant ring with the relative position h of metal wire.
Mode two: adopt the circuit board lithographic technique, two groups of same metal copper of etching split ring resonator array on certain one side of epoxy glass fabric fibre base plate that a thickness is 1.50mm or polytetrafluoroethylene fibre substrate, its center distance is a=3.00-10.00mm, the spacing of two groups of metallic copper split ring resonators is d=0.10-0.50mm, the inscribed circle diameter of interior ring and outer shroud be d
1/ d
2=0.40-0.75, opening are g=0.10-0.50mm, and live width is c
1=0.10-0.50mm, thickness are t=0.02-0.04mm; Its length of etching is for can equidistantly placing the copper lines array of three groups of same metal copper split ring resonators along its axis on certain one side of another piece epoxy glass fabric fibre base plate or ptfe substrate, its center distance is a=3.00-10.00mm, length is L=6.00-10.00mm, and live width is c
2=0.10-0.50mm, thickness are t=0.02-0.04mm, with the stack of two substrates and the etched surface that is etched with the copper lines substrate is close to be etched with the not etched surface of metallic copper split ring resonator substrate.The microwave transmission curve of the microwave left-hand material that is prepared by this mode shows that in its zone, left-hand transmission peak the forbidden band is arranged, and makes the different microwave left-hand materials that contain the forbidden band by regulating the metal openings resonant ring with the relative position h of metal wire.
The performance of implementation procedure of the present invention and material is by embodiment and description of drawings:
Embodiment one:
Adopt the circuit board lithographic technique, three groups of same metal copper of etching hexagonal apertures resonant ring array on certain one side of the polytetrafluoroethylene fibre substrate that a thickness is 1.50mm, its center distance is a=5.00mm, the spacing of every group of metallic copper hexagonal apertures resonant ring is d=0.25mm, every group number is n=12, and the inscribed circle diameter of interior ring is d
1=1.00mm, the inscribed circle diameter of outer shroud are d
2=2.20mm, opening are g=0.25mm, and live width is c
1=0.40mm, thickness are t=0.04mm; Its length of etching is for can equidistantly placing the copper lines array of three groups of same metal copper hexagonal apertures resonant rings along its axis on another side, and its center distance is a=5.00mm, and number is n=12, and length is L=9.90mm, and live width is c
2=0.50mm, thickness is t=0.04mm, be formed in the microwave left-hand material that a left-hand transmission peak is arranged in a certain frequency range, maintenance copper lines array is constant only to be replaced the 3rd group of metallic copper hexagonal apertures resonant ring just to be formed in the microwave left-hand material that there is the forbidden band in zone, left-hand transmission peak with the room, and the microwave transmission curve of these two kinds of microwave left-hand materials as shown in Figure 3.
Embodiment two:
Adopt the circuit board lithographic technique, two groups of same metal copper of etching hexagonal apertures resonant ring array on certain one side of the polytetrafluoroethylene fibre substrate that a thickness is 1.50mm, its center distance is a=5.00mm, the spacing of two groups of metallic copper hexagonal apertures resonant rings is d=0.25mm, every group number is n=12, and the inscribed circle diameter of interior ring is d
1=1.00mm, the inscribed circle diameter of outer shroud are d
2=2.20mm, opening are g=0.25mm, and live width is c
1=0.40mm, thickness are t=0.04mm; Its length of etching is for can equidistantly placing the copper lines array of three groups of same metal copper hexagonal apertures resonant rings along its axis on another side, and its center distance is a=5.00mm, and number is n=12, and length is L=9.90mm, and live width is c
2=0.50mm, thickness are t=0.04mm, and the relative position of metallic copper hexagonal apertures resonant ring and copper lines is h=0.20mm, has so just made the microwave left-hand material that contains the forbidden band.Adopt that to use the same method to be to make the microwave left-hand material that contains the forbidden band with the another kind that physical dimension is identical on the polytetrafluoroethylene fibre substrate on the 1.50mm epoxy glass fabric fibre base plate at a thickness.The microwave transmission curve of these two kinds of microwave left-hand materials as shown in Figure 4.
Embodiment three:
Adopt the circuit board lithographic technique, two groups of same metal copper of etching hexagonal apertures resonant ring array on certain one side of the polytetrafluoroethylene fibre substrate that a thickness is 1.50mm, its center distance is a=5.00mm, the spacing of two groups of metallic copper hexagonal apertures resonant rings is d=0.25mm, every group number is n=12, and the inscribed circle diameter of interior ring is d
1=1.00mm, the inscribed circle diameter of outer shroud are d
2=2.20mm, opening are g=0.25mm, and live width is c
1=0.40mm, thickness are t=0.04mm; Its length of etching is for can equidistantly placing the copper lines array of three groups of same metal copper hexagonal apertures resonant rings along its axis on another side, and its center distance is a=5.00mm, and number is n=12, and length is L=9.90mm, and live width is c
2=0.50mm, thickness is t=0.04mm, makes the relative position of metallic copper hexagonal apertures resonant ring and copper lines be respectively h=0.10mm, h=0.87mm, h=1.87mm has so just made three kinds of microwave left-hand materials that contain the forbidden band, and its microwave transmission curve as shown in Figure 5.
Embodiment four:
Adopt the circuit board lithographic technique, two groups of same metal copper of etching hexagonal apertures resonant ring array on certain one side of the epoxy glass fabric fibre base plate that a thickness is 1.50mm, its center distance is a=5.00mm, the spacing of two groups of metallic copper hexagonal apertures resonant rings is d=0.25mm, every group number is n=12, and the inscribed circle diameter of interior ring is d
1=1.00mm, the inscribed circle diameter of outer shroud are d
2=2.20mm, opening are g=0.25mm, and live width is c
1=0.40mm, thickness are t=0.04mm; Its length of etching is for can equidistantly placing the copper lines array of three groups of same metal copper hexagonal apertures resonant rings along its axis on the epoxy glass fabric fibre base plate one side that another piece thickness is 1.50mm, its center distance is a=5.00mm, number is n=12, length is L=9.90mm, and live width is c
2=0.50mm, thickness is t=0.04mm, with the stack of two substrates and the etched surface that is etched with the copper lines substrate is close to be etched with the not etched surface of metallic copper hexagonal apertures resonant ring substrate, make the relative position of metallic copper hexagonal apertures resonant ring and copper lines be respectively h=1.80mm, h=1.95mm, h=2.20mm has so just made three kinds of microwave left-hand materials that contain the forbidden band, and its microwave transmission curve as shown in Figure 6.
Embodiment five:
Adopt the circuit board lithographic technique, two groups of same metal copper of etching hexagonal apertures resonant ring array on certain one side of the polytetrafluoroethylene fibre substrate that a thickness is 1.50mm, its center distance is a=5.00mm, the spacing of two groups of metallic copper hexagonal apertures resonant rings is d=0.25mm, every group number is n=12, and the inscribed circle diameter of interior ring is d
1=1.00mm, the inscribed circle diameter of outer shroud are d
2=2.20mm, opening are g=0.25mm, and live width is c
1=0.40mm, thickness are t=0.04mm; At another piece thickness be on certain one side of 1.50mm polytetrafluoroethylene fibre substrate its length of etching for can equidistantly placing the copper lines array of three groups of same metal copper hexagonal apertures resonant rings along its axis, its center distance is a=5.00mm, number is n=12, length is L=9.90mm, and live width is c
2=0.50mm, thickness is t=0.04mm, with the stack of two substrates and the etched surface that is etched with the copper lines substrate is close to be etched with the not etched surface of metallic copper hexagonal apertures resonant ring substrate, make the relative position h=0.10mm of metallic copper hexagonal apertures resonant ring and copper lines, so just made the microwave left-hand material that contains the forbidden band.Same adopt the circuit board lithographic technique can be on the two sides of the thickness polytetrafluoroethylene fibre substrate that is 1.50mm etching two groups of same metal split ring resonators array and the array of metal lines of its length respectively for can equidistantly placing three groups of same metal split ring resonators along its axis, and the metallic copper hexagonal apertures resonant ring array of its physical dimension and etching on two polytetrafluoroethylene fibre substrates and copper lines array is identical, has so just made the another kind of microwave left-hand material that contains the forbidden band.The microwave transmission curve of these two kinds of microwave left-hand materials as shown in Figure 7.
Claims (4)
1. microwave left-hand material that contains the forbidden band, this material is made up of the metal openings resonant ring and the metal wire that are etched on the substrate, and its principal character is that the construction unit of this material is that two groups of same metal split ring resonators and its length are equidistantly to place the metal wire composition of three groups of same metal split ring resonators along its axis.
2. the microwave left-hand material that contains the forbidden band according to claim 1 is characterized in that the metal openings resonant ring is hexagon, square, circle, the ratio d of the interior ring of split ring resonator and the inscribed circle diameter of outer shroud
1/ d
2=0.40-0.75, opening are g=0.10-0.50mm, and live width is c
1=0.10-0.50mm, thickness are t=0.02-0.04mm.
3. the microwave left-hand material that contains the forbidden band according to claim 1, the length that it is characterized in that metal wire is l=6.00-10.00mm, live width is c
2=0.10-0.50mm, thickness are t=0.02-0.04mm.
4. contain the microwave left-hand material in forbidden band according to claim 1, its preparation process comprises the steps:
(1) adopts the circuit board lithographic technique, two groups of same metal split ring resonators of etching and the metal wire structure cell array of its length on polytetrafluoroethylene fibre substrate or epoxy glass fabric fibre base plate for can equidistantly placing three groups of same metal split ring resonators along its axis, the construction unit center distance is a=3.00-10.00mm, the spacing d=0.10-0.50mm of two groups of metal openings resonant rings;
(2) etching two groups of same metal split ring resonators array and the array of metal lines of its length respectively on the two sides of a substrate for can equidistantly placing three groups of same metal split ring resonators along its axis, by regulating the relative position h of metal openings resonant ring and metal wire, make relative position and be respectively h=0.10mm, h=0.20mm, h=0.87mm, h=1.87mm contain the microwave left-hand material in forbidden band;
(3) at certain one side etching two groups of same metal split ring resonators array of a substrate, the array of metal lines of its length of certain one side etching at another piece substrate of same material for can equidistantly placing three groups of same metal split ring resonators along its axis, with the stack of two substrates and the etched surface that is etched with the metal wire substrate is close to be etched with the not etched surface of metal openings resonant ring substrate, by regulating the relative position h of metal openings resonant ring and metal wire, make relative position and be respectively h=0.10mm, h=1.80mm, h=1.95mm, h=2.20mm contain the microwave left-hand material in forbidden band.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101242021B (en) * | 2008-01-25 | 2010-09-01 | 清华大学 | Electromagnetic response behavior adjustment and control method for magnetic field negative conductivity material based on magnetic material |
CN101162797B (en) * | 2006-10-10 | 2011-12-14 | 西北工业大学 | Negative magnetic-inductive capacity material mobile phone antenna electromagnetic shielding device |
CN102354815A (en) * | 2011-09-22 | 2012-02-15 | 中国人民解放军空军工程大学 | Broadband low-consumption left-handed material based on inclined triangular opening paired loops |
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AU2001249241A1 (en) * | 2000-03-17 | 2001-10-03 | The Regents Of The University Of California | Left handed composite media |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101162797B (en) * | 2006-10-10 | 2011-12-14 | 西北工业大学 | Negative magnetic-inductive capacity material mobile phone antenna electromagnetic shielding device |
CN101242021B (en) * | 2008-01-25 | 2010-09-01 | 清华大学 | Electromagnetic response behavior adjustment and control method for magnetic field negative conductivity material based on magnetic material |
CN102354815A (en) * | 2011-09-22 | 2012-02-15 | 中国人民解放军空军工程大学 | Broadband low-consumption left-handed material based on inclined triangular opening paired loops |
CN102354815B (en) * | 2011-09-22 | 2013-12-25 | 中国人民解放军空军工程大学 | Broadband low-consumption left-handed material based on inclined triangular opening paired loops |
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