Graphene based waveguide path selector

A waveguide path and selector technology, which is applied in the field of graphene-based waveguide path selectors, can solve problems such as not easy to implement, limited electromagnetic wave propagation distance, and inconvenient

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Problems solved by technology

If you want to obtain multi-path selective transmission, you must change the physical structure at the time of selection, which is very inconvenient and not easy to achieve
In addition, SPP waves (surface plasmon waves) can only propagate in metallic materials. For conductors, although their metallic properties are relatively good, once electromagnetic waves enter it, they will rapidly attenuate due to the skin effect, resulting in electromagnetic waves in the conductor. The transmission distance is very limited

Method used

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  • Graphene based waveguide path selector
  • Graphene based waveguide path selector
  • Graphene based waveguide path selector

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Embodiment Construction

[0026] A graphene-based waveguide path selector, such as figure 1 As shown, including the selector body, the selector is a cuboid as a whole, which is mainly made of a graphene layer 1 made of a graphene material, a continuous coating 6 and an intermittent groove layer 7 made of a semiconductor material, and a non-conductive material The manufactured substrate layer 2, the positive stepped body 3, the filling layer 4 and the concave stepped body 5 are composed. In a preferred embodiment of the present invention, both the continuous coating layer 6 and the intermittent groove layer 7 are silicon. The substrate layer 2, the positive step body 3, the filling layer 4 and the concave step body 5 are made of aluminum oxide.

[0027] The substrate layer 2 is a cuboid structure. The graphene layer 1 covers the upper surface of the substrate layer 2 . The positive ladder body 3 is a positive ladder structure. That is, the upper surface of the positive stepped body 3 is a horizontal...

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Abstract

The invention discloses a graphene based waveguide path selector. The graphene based waveguide path selector comprises a selector body; the selector body is a cuboid; the selector is mainly formed by a graphene layer which is made of graphene materials, a continuous coating layer and an interrupt groove layer which are made of semiconductor materials and a substrate layer, a positive ladder body, a filling layer and a concave ladder body which are made of non-conducting materials. According to the graphene based waveguide path selector, the waveguide path selector is constructed according to the voltage adjustable character of the graphene, then connection and disconnection of SPP waves on different areas of the graphene can be controlled due to continuous change of the voltage, and accordingly waveguide path selection is achieved and additionally, the broadcasting distance of the SPP waves in the waveguide path selector is far relatively due to the character that an imaginary part of the electrical conductivity of the graphene shows metallicity when being larger than zero and does not generate large attenuation after entering of electromagnetic waves.

Description

technical field [0001] The invention relates to the technical field of graphene, in particular to a waveguide path selector based on graphene. Background technique [0002] At present, most waveguides (such as rectangular waveguides, circular waveguides, or dielectric waveguides, etc.) are transmitted in a single path. If you want to obtain multi-path selective transmission, you must change the physical structure at the time of selection, which is very inconvenient and not easy to realize. In addition, SPP waves (surface plasmon waves) can only propagate in metallic materials. For conductors, although their metallic properties are relatively good, once electromagnetic waves enter it, they will rapidly attenuate due to the skin effect, resulting in electromagnetic waves in the conductor. The propagation distance is very limited. [0003] Graphene is a new material with a single-layer sheet structure composed of carbon atoms. It is a planar film composed of carbon atoms in a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01P3/00
Inventor 姜彦南王扬袁锐曹卫平王娇
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