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Artificial surface plasmon orbital angular momentum beam scanning antenna and method thereof

An artificial surface plasmon and orbital angular momentum technology, applied in the field of orbital angular momentum, can solve problems such as difficult adjustment, working bandwidth limitation, complex feed structure design, etc., and achieve the effect of avoiding system loss and reducing reflection

Active Publication Date: 2020-09-22
PEKING UNIV
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  • Application Information

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Problems solved by technology

Although there are many ways to generate OAM beams, there are still many problems, such as (1) limited working size, the use of an array structure will result in too large a volume, which is not conducive to the miniaturization of the antenna structure, and faces a complex feed structure Design; (2) limited operating bandwidth, due to the resonance effect of the metasurface structure depending on the unit structure, the bandwidth is narrow; (3) mode adjustment is difficult
Structures such as metasurface arrays, antenna arrays, and planar artificial surface plasmons depend on phase changes between adjacent units, and each OAM mode distribution requires a specific array arrangement, which is difficult to adjust; (4) Radiation The direction is difficult to adjust. At present, the adjustment methods to realize the radiation mode are limited, mainly mechanical adjustment, and the adjustment angle is limited

Method used

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  • Artificial surface plasmon orbital angular momentum beam scanning antenna and method thereof
  • Artificial surface plasmon orbital angular momentum beam scanning antenna and method thereof
  • Artificial surface plasmon orbital angular momentum beam scanning antenna and method thereof

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Embodiment Construction

[0036] The present invention will be further elaborated below through specific embodiments in conjunction with the accompanying drawings.

[0037] Such as figure 1 As shown, the OAM mode beam scanning antenna based on artificial surface plasmons in this embodiment includes: artificial surface plasmon orbital angular momentum beam scanning antenna includes: first waveguide feeding device 1, SSP transmission line 2, radiation structure 3. The second waveguide feeder 4 and the support frame; wherein, the two ends of the SSP transmission line 2 are respectively coaxially connected to the first waveguide feeder 1 and the second waveguide feeder 4; the radiation structure 3 is fixed on the support frame, The radiation structure 3 is coaxially sleeved outside the SSP transmission line 2; the two ends of the first and second waveguide feeding devices 4 are respectively coaxially connected to the coaxial line; the SSP transmission line 2 is a cylindrical grating, that is, a periodic st...

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Abstract

The invention discloses an artificial surface plasmon orbital angular momentum beam scanning antenna and a method thereof. According to the invention, a waveguide feed device is adopted to convert a TEM mode in a coaxial line into an SSP mode, and the SSP mode is propagated along the surface of an SSP transmission line; under the diffraction effect of a radiation structure loaded outside the SSP transmission line, the wave vector of the SSP mode is superposed with the harmonic wave vector generated by diffraction to generate a frequency spectrum shifting effect, the SSP mode is converted intoa free space radiation wave, and meanwhile, the intrinsic electric field of a spiral line of the radiation structure has an OAM mode, thereby realizing the space radiation wave with the OAM mode, andworking in different frequency bands; the radiation direction of the OAM mode is controlled by controlling the working frequency; the rotation direction of the OAM mode is consistent with the chirality of the spiral line; the structure is compact, and a plurality of unit arrays are not needed; the robustness of the system is high, and only the spiral characteristic of the spiral line needs to be kept; and the waveguide feed device is simple, only coaxial port feed is needed, and a complex feed network is not needed.

Description

technical field [0001] The invention relates to orbital angular momentum technology, in particular to an artificial surface plasmon orbital angular momentum wave vector scanning antenna and a realization method thereof. Background technique [0002] Orbital angular momentum (OAM) has a spiral wave front and has a wide range of applications in various fields. First, different OAM modes are orthogonal to each other, which can be applied in communication systems to improve channel capacity. In addition, OAM can be applied in imaging, quantum communication and other fields. Due to the wide application of OAM in many fields, how to efficiently generate OAM patterns has always been a research hotspot. In the optical band, the thickness of the spiral phase plate is different in the angular direction. When the Gaussian mode passes through the spiral phase plate, it can be converted into an OAM mode. In addition, the conversion of the OAM mode can also be realized through a hologra...

Claims

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Application Information

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IPC IPC(8): H01Q1/50H01Q3/22H01Q1/36H01Q5/28H01Q9/27
CPCH01Q1/36H01Q1/50H01Q3/22H01Q9/27H01Q5/28
Inventor 杜朝海朱娟峰张子文包路遥刘濮鲲
Owner PEKING UNIV
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