Space distribution PML model-based absorption material and miniature dark chamber

A technology of spatial distribution and absorbing materials, which is applied in projection rooms/rooms, electrical components, magnetic field/electric field shielding, etc. It can solve the problems of high cost of construction sites, difficulty in finding open sites, and large sizes.

Active Publication Date: 2019-04-12
ZHEJIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But in the modern living environment, it is difficult to find an ideal open space, so there is a microwave anechoic chamber
Microwave anechoic chambers are generally realized by laying absorbing materials on the inner wall, but in order

Method used

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  • Space distribution PML model-based absorption material and miniature dark chamber
  • Space distribution PML model-based absorption material and miniature dark chamber
  • Space distribution PML model-based absorption material and miniature dark chamber

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Embodiment Construction

[0037] The implementation process of the present invention will be described in detail below in conjunction with the drawings in the embodiments of the present invention.

[0038] The specific implementation of the absorbing material includes at least one absorbing unit, which is an absorbing material with good absorbing properties by closely arranging a plurality of absorbing units on the inner surface of the darkroom constructed.

[0039] like figure 1 As shown, the absorbing unit is mainly composed of a dielectric layer 31 with spatially distributed constitutive parameters and a layer of grounded metal layer 32, the grounded metal layer 32 is used as a shielding layer, and the dielectric layer with spatially distributed constitutive parameters includes metal patterns 311 and the middle The layer dielectric board 312 , the metal pattern is arranged on the upper surface of the middle layer dielectric board 312 , and the middle layer dielectric board 312 is arranged on the upp...

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Abstract

The invention discloses a space distribution PML model-based absorption material and a miniature dark chamber. A wave absorption unit comprises a grounding metal layer, a metal pattern and an intermediate-layer dielectric substrate, wherein the metal pattern is arranged on an upper surface of the intermediate-layer dielectric substrate, the intermediate-layer dielectric plate is arranged on an upper surface of the grounding metal layer, an electromagnetic wave polarized along a fixed direction irradiates the wave absorption unit at a known incident angle, and relative dielectric constant and areflection parameter of relative permeability conform to a certain condition by adjusting the size morphology of the metal pattern. An inner wall of the dark chamber is formed by closely arranging the wave absorption units, and for other positions, except an electromagnetic wave source fixed position, in the dark chamber, the wave absorption unit at the position is arranged according to an incident angle between the electromagnetic wave emission source and the position and according to the condition. An ultrathin absorption surface can be designed with a given frequency band, the wave absorption unit works in an opened or closed planar or curve-surface state with regard to different demands, and the wave absorption unit can be used for constructing the miniature wave absorption dark chamber with wavelength scale.

Description

technical field [0001] The invention relates to a non-uniform perfectly matched layer (PML) absorbing material and a micro-darkroom, in particular to a PML model based on spatially distributed constitutive parameters and an absorbing material and a micro-darkroom construction method based on the above model. Background technique [0002] Perfectly matched layer PML is a hypothetical material model defined by mathematics in computational electromagnetics. When an electromagnetic wave along any polarization is incident on the surface of the PML at any incident angle, the electromagnetic wave will enter the interior of the PML without any reflection. When the PML has a large loss, the transmitted electromagnetic wave energy will be quickly absorbed, and it becomes an ideal wave-absorbing material. However, due to the active and non-Maxwellian nature of its constitutive parameters, it is still a great challenge to fabricate materials with PML properties in experiments. [0003...

Claims

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Application Information

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IPC IPC(8): H01Q17/00H05K9/00
CPCH01Q17/008H05K9/0001
Inventor 彭甜冉立新
Owner ZHEJIANG UNIV
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