A Cerenkov Radiation Device Based on Artificial Surface Plasmons

An artificial surface plasmon and radiation device technology, applied in the field of new artificial electromagnetic materials, can solve the problems of low conversion efficiency, limit the development and application of surface plasmon components, and achieve maximum flexibility, sub-wavelength and field localization Enhanced effects and good scalability

Active Publication Date: 2019-06-25
SOUTHEAST UNIV
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Problems solved by technology

According to the principle of optical reciprocity, especially in the design of surface plasmon functional devices, the efficient conversion of space waves and surface plasmon waves is a very critical technical difficulty; due to the current low conversion efficiency, this is very important To a certain extent, the development and application of surface plasmon devices are limited

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  • A Cerenkov Radiation Device Based on Artificial Surface Plasmons
  • A Cerenkov Radiation Device Based on Artificial Surface Plasmons
  • A Cerenkov Radiation Device Based on Artificial Surface Plasmons

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Embodiment Construction

[0028] The technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0029] figure 1 A schematic diagram of the overall structure of the phase inversion device and its cross-section are given Figure 6 . The whole device can be regarded as composed of multiple parallel transmission line segments connected in series. Such as figure 1 As shown, the structure of the present invention includes a dielectric substrate 1 and two layers of metal sheets covering the upper and lower surfaces of the dielectric substrate 1 . The structure of the two-layer metal sheet is composed of metal groove units arranged periodically along the extending direction of the metal sheet. The upper and lower metal sheets have the same metal pattern and are mirror-symmetrical with respect to the reference plane (XOZ plane). The first metal sheet 2 The groove opening direction is opposite to the groove opening direction on the second me...

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Abstract

The invention discloses a Cherenkov radiation device design based on an artificial surface plasmon. The Cherenkov radiation device comprises a dielectric layer and two layers of metal sheets, wherein the two layers of metal sheets are fixedly connected with two sides of the dielectric layer and are in mirror symmetry along an extension direction of the metal sheets, the radiation device is of a structure based on dual layers of artificial surface plasmon waveguides, a periodic phase reverse structure is introduced into the waveguides, and thus, structural mutation with discontinuous impedance is generated in the structure. On the basis of the artificial surface plasmon waveguides, mode conversion and high-efficiency radiation of artificial surface plasmon are achieved, and moreover, the radiation and the beam direction of the artificial surface plasmon are effectively controlled by changing dispersion characteristics; by the Cherenkov radiation device, high-efficiency conversion between a conduction mode and a space radiation mode can be achieved, the development of a device and a functional device of a novel waveguide structure can be promoted to a great extent, and the Cherenkov radiation device has important application prospect in aspects of circuits, signal transmission, processing and the like in future.

Description

technical field [0001] The invention relates to a Cerenkov radiation device based on artificial surface plasmons, belonging to the field of new artificial electromagnetic materials. Background technique [0002] When high-speed charged particles travel through the medium, when the particle velocity is greater than the phase velocity in the medium, a special kind of radiation—Cherenkov radiation will be excited. This kind of radiation was discovered by Russian physicist P.A. Cherenkov in 1934. In 1937, Russian physicists I.M. Frank and I.E. Tamm successfully explained the cause of Cherenkov radiation. Cherenkov radiation is a kind of strongly polarized radiation, and the radiation field formed by it will be concentrated in a conical region behind the particle, which is the wake formed by the interference of waves radiated by charged particles at various points on their trajectory. Moreover, the angle θ between the direction of the radiation wave and the direction of particle...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01Q1/38H01Q1/50
CPCH01Q1/38H01Q1/50
Inventor 崔铁军徐俊珺张浩驰
Owner SOUTHEAST UNIV
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