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    • 3. 发明授权
    • Metamaterial and metamaterial antenna
    • 超材料和超材料天线
    • US09142892B2
    • 2015-09-22
    • US13522969
    • 2011-11-16
    • Ruopeng LiuChunlin JiYutao Yue
    • Ruopeng LiuChunlin JiYutao Yue
    • H01Q19/06H01Q15/08
    • H01Q15/08H01Q19/06
    • The present invention relates to a metamaterial and a metamaterial antenna. The metamaterial is disposed in a propagation direction of the electromagnetic waves emitted from a radiation source. A line connecting the radiation source to a point on a first surface of the metamaterial and a line perpendicular to the metamaterial form an angle θ therebetween, which uniquely corresponds to a curved surface in the metamaterial. Each point on the curved surface to which the angle θ uniquely corresponds has a same refractive index. Refractive indices of the metamaterial decrease gradually as the angle θ increases. The electromagnetic waves propagating through the metamaterial exits in parallel from a second surface of the metamaterial. The refraction, diffraction and reflection at the abrupt transition points can be significantly reduced in the present disclosure and the problems caused by interferences are eased, which further improves performances of the metamaterial and the metamaterial antenna.
    • 本发明涉及超材料和超材料天线。 超材料设置在从辐射源发射的电磁波的传播方向上。 将辐射源连接到超材料的第一表面上的点和垂直于超材料的线形成角度的线; 其间,它们独特地对应于超材料中的曲面。 曲面上的每个点与角度和角度相对应; 唯一对应具有相同的折射率。 超材料的折射率随着角度而减小; 增加 通过超材料传播的电磁波从超材料的第二表面平行地离开。 在本公开中,在突变转变点处的折射,衍射和反射可以显着降低,并且由干扰引起的问题得到缓解,这进一步提高了超材料和超材料天线的性能。
    • 4. 发明授权
    • Man-made composite material and man-made composite material antenna
    • 人造复合材料和人造复合材料天线
    • US09142891B2
    • 2015-09-22
    • US13522958
    • 2011-11-16
    • Ruopeng LiuChunlin JiYutao Yue
    • Ruopeng LiuChunlin JiYutao Yue
    • H01Q19/06H01Q15/08
    • H01Q15/08H01Q19/06
    • The present invention relates to a man-made composite material and a man-made composite material antenna. The man-made composite material is disposed in a propagation direction of a plane electromagnetic wave and convert it into a spherical wave. Reverse extensions of the spherical wave intersect at a virtual focus. A line connecting the virtual focus to a point on the second surface of the man-made composite material and a line perpendicular to the man-made composite material form an angle θ therebetween, which uniquely corresponds to a curved surface in the man-made composite material. A set formed by points having the same angle θ forms a boundary of the curved surface to which the angle θ uniquely corresponds. Each point on the curved surface to which the angle θ uniquely corresponds has a same refractive index. Refractive indices of the man-made composite material increase gradually as the angle θ increases.
    • 本发明涉及人造复合材料和人造复合材料天线。 人造复合材料沿平面电磁波的传播方向设置,并将其转换成球面波。 球面波的反向延伸在虚拟焦点处相交。 将虚拟焦点连接到人造复合材料的第二表面上的一条线和垂直于人造复合材料的线形成角度; 其间独特地对应于人造复合材料中的曲面。 由具有相同角度和角度的点组成的集合; 形成角度与角度的曲面的边界; 唯一对应。 曲面上的每个点与角度和角度相对应; 唯一对应具有相同的折射率。 人造复合材料的折射率随着角度和角度逐渐增加; 增加
    • 5. 发明申请
    • OFFSET FEED SATELLITE TELEVISION ANTENNA AND SATELLITE TELEVISION RECEIVER SYSTEM THEREOF
    • 卫星馈线卫星电视天线和卫星电视接收机系统
    • US20140320360A1
    • 2014-10-30
    • US14235059
    • 2011-11-18
    • Ruopeng LiuChunlin JiYutao YueJinjin WangYunnan Hong
    • Ruopeng LiuChunlin JiYutao YueJinjin WangYunnan Hong
    • H01Q19/06H01Q15/02
    • H01Q19/06H01Q15/0086H01Q15/02H01Q15/10H01Q15/23H01Q19/065H01Q19/10
    • Disclosed is an offset feed satellite television antenna comprising a metamaterial panel (100) arranged behind a feed (1). The metamaterial panel (100) comprises a core layer (10) and a reflective panel (200) arranged on a lateral surface of the core layer (10). The core layer (10) comprises at least one core layer lamella (11). The core layer lamella (11) can be divided into multiple belt areas on the basis of refractive indexes. With a fixed point as a center, the refractive indexes on the multiple belt areas are identical at a same radius, while the refractive indexes on each belt area decrease gradually as the radius increases. For two adjacent belt areas, the minimum value of the refractive indexes of the inner belt area is less than the maximum value of the refractive indexes of the outer belt area. A connection between the center and the feed (1) is perpendicular to the core layer lamella (11), while the center does not overlap the center of the core layer lamella (11). In addition, the present invention also provides a satellite television receiver system having the offset feed satellite television antenna. The present invention allows for facilitated manufacturing and processing, and for further reduced costs.
    • 公开了一种偏置馈电卫星电视天线,其包括布置在馈送(1)后面的超材料面板(100)。 超材料板(100)包括芯层(10)和布置在芯层(10)的侧表面上的反射板(200)。 芯层(10)包括至少一个芯层薄片(11)。 芯层薄片(11)可以基于折射率分成多个带区域。 以固定点为中心,多个带区域的折射率在相同的半径处相同,而每个带区域的折射率随着半径的增加而逐渐减小。 对于两个相邻的带区域,内带区域的折射率的最小值小于外带区域的折射率的最大值。 中心和进料(1)之间的连接垂直于芯层薄片(11),而中心不与芯层薄片(11)的中心重叠。 此外,本发明还提供一种具有偏置馈电卫星电视天线的卫星电视接收机系统。 本发明允许便利的制造和加工,并且进一步降低成本。
    • 6. 发明申请
    • METAMATERIAL ANTENNA
    • 金属天线
    • US20140292615A1
    • 2014-10-02
    • US14353028
    • 2012-04-09
    • Ruopeng LiuChunlin JiYutao YueQing Yang
    • Ruopeng LiuChunlin JiYutao YueQing Yang
    • H01Q15/14
    • H01Q15/14H01Q15/0053H01Q15/0086H01Q15/10H01Q15/23H01Q19/027H01Q19/062H01Q19/10H01Q19/18
    • The disclosure relates to a metamaterial antenna, where the metamaterial antenna includes an enclosure, a feed, a first metamaterial that clings to an aperture edge of the feed, a second metamaterial that is separated by a preset distance from the first metamaterial and is set oppositely, and a third metamaterial that clings to an edge of the second metamaterial, where the enclosure, the feed, the first metamaterial, the second metamaterial, and the third metamaterial make up a closed cavity; and a central axis of the feed penetrates center points of the first metamaterial and the second metamaterial; and a reflection layer for reflecting an electromagnetic wave is set on surfaces of the first metamaterial and the second metamaterial, where the surfaces are located outside the cavity.
    • 本发明涉及超材料天线,其中超材料天线包括外壳,馈电,粘附到馈电的孔边缘的第一超材料,与第一超材料隔开预设距离并相对设置的第二超材料 以及附着在第二超材料的边缘上的第三超材料,其中外壳,进料,第一超材料,第二超材料和第三超材料构成封闭的空腔; 并且所述进料的中心轴线穿过所述第一超材料和所述第二超材料的中心点; 并且用于反射电磁波的反射层设置在第一超材料和第二超材料的表面位于空腔外部。
    • 7. 发明授权
    • Metamaterial for converging electromagnetic waves
    • 用于会聚电磁波的超材料
    • US08681429B2
    • 2014-03-25
    • US13522493
    • 2011-11-17
    • Ruopeng LiuChunlin JiJinjin Wang
    • Ruopeng LiuChunlin JiJinjin Wang
    • G02B3/00
    • G02B1/002G02B3/0087G02B3/08H01Q15/0086
    • The present disclosure relates to a metamaterial for converging electromagnetic waves, which comprises a plurality of metamaterial sheet layers stacked integrally in an x direction. Each of the metamaterial sheet layers comprises a plurality of metamaterial units. Each of the metamaterial units has an identical substrate unit and a man-made microstructure attached on the substrate unit. The metamaterial units of each row have a same refractive index. Refractive indices of the metamaterial units of each column satisfy particular relationships. The man-made microstructure is a non-90° rotationally symmetrical structure, and an extraordinary optical axis of a refractive index ellipsoid thereof is non-perpendicular to and unparallel to the y direction. The thickness of the metamaterial can be considerably decreased while the function of converging electromagnetic waves is achieved in the present disclosure. This is favorable for making the metamaterial product miniaturized and lightweight.
    • 本公开涉及用于会聚电磁波的超材料,其包括沿x方向一体堆叠的多个超材料片层。 每个超材料片层包括多个超材料单元。 每个超材料单元具有相同的基板单元和附着在基板单元上的人造微结构。 每行的超材料单元具有相同的折射率。 每列的超材料单位的折射率满足特定的关系。 人造微结构是非90°的旋转对称结构,其折射率椭圆的非常的光轴与y方向不垂直并且不平行。 在本公开内容中,可以显着地减少超材料的厚度,同时会聚电磁波的功能。 这有利于使超材料产品小型化和轻量化。
    • 8. 发明申请
    • ELECTROMAGNETIC WAVE BEAM SPLITTER
    • 电磁波束分离器
    • US20140070117A1
    • 2014-03-13
    • US14118015
    • 2011-11-21
    • Ruopeng LiuChunlin JiYutao YueYunnan Hong
    • Ruopeng LiuChunlin JiYutao YueYunnan Hong
    • G21K1/06
    • G21K1/062G02B1/002G02B3/0087G02B27/0927H01Q15/0086H01Q15/10H01Q19/06H01Q19/065
    • Embodiments of the present invention relate to an electromagnetic wave beam splitter, comprising a functional layer made of at least one metamaterial sheet, wherein different metamaterial sheets have the same refractive index distribution; the metamaterial sheet may be divided into a circular region and an annular region concentric to the circular region; a refractive index increases continuously as a radius increases and refractive indices at the same radius are the same within the circular region; and a refractive index decreases continuously as a radius increases and refractive indices are the same at the same radius within the annular region. The circular region of the functional layer of the beam splitter according to the present invention has the function of diverging an electromagnetic wave; the annular region has the function of converging an electromagnetic wave; the electromagnetic wave incident on the circular region of the functional layer deflects toward edges on two sides of the functional layer respectively; the electromagnetic wave incident on the annular region deflects in a direction toward a circle center; and after an electromagnetic wave emitted by a signal source is incident on the beam splitter, an emergent electromagnetic wave forms an annular radiation region. This can satisfy the requirements of, for example, avoiding an obstacle and interference.
    • 本发明的实施例涉及一种电磁波束分离器,包括由至少一个超材料片制成的功能层,其中不同的超材料片具有相同的折射率分布; 超材料片可以分为圆形区域和与圆形区域同心的环形区域; 随着半径的增加,折射率连续增加,同一半径的折射率在圆形区域内相同; 并且折射率随着半径增加而连续减小,并且折射率在环形区域内的相同半径处相同。 根据本发明的分束器的功能层的圆形区域具有发散电磁波的功能; 环形区域具有会聚电磁波的功能; 入射到功能层的圆形区域上的电磁波分别偏向功能层两侧的边缘; 入射到环形区域的电磁波在朝向圆心的方向上偏转; 并且在由信号源发射的电磁波入射到分束器上之后,出现的电磁波形成环形辐射区域。 这可以满足例如避免障碍和干扰的要求。
    • 9. 发明申请
    • Polarization converter made of meta material
    • 偏光转换器由元素材料制成
    • US20120307361A1
    • 2012-12-06
    • US13522334
    • 2011-11-24
    • Ruopeng LiuGuanxiong XuChunlin JiYutao YueZhen Liao
    • Ruopeng LiuGuanxiong XuChunlin JiYutao YueZhen Liao
    • G02B5/30
    • H01Q15/242H01P1/165H01Q15/0086
    • A polarization converter made of metamaterial, including a base material and a number of artificial microstructures disposed on the base material. The artificial microstructures can influence the electric field vector of plane electromagnetic wave propagating in it. The electric field vector of the electromagnetic wave can be decomposed into two non-zero orthogonal components on one or more planes perpendicular to the incident direction of the electromagnetic wave, the orthogonal components can be parallel and perpendicular to the optical axis at the position where the artificial microstructure located. After the electromagnetic wave passing through the polarization converter made of metamaterial, the two orthogonal components have a phase difference Δθ different from before incidence, thereby achieving mutual conversion between the above electromagnetic wave polarization methods. The polarization converter made of metamaterial of the present invention is simple in structure, and can easily realize polarization conversion of electromagnetic waves.
    • 一种由超材料制成的偏振转换器,包括基材和设置在基材上的许多人造微结构。 人造微结构可以影响其中传播的平面电磁波的电场矢量。 电磁波的电场矢量可以在与电磁波的入射方向垂直的一个或多个平面上分解为两个非零正交分量,正交分量可以平行于垂直于光轴的位置, 人造微结构位于。 在电磁波通过偏振转换器由超材料制成后,两个正交分量具有相位差&Dgr; 与之前的入射不同,从而实现上述电磁波极化方法之间的相互转换。 由本发明的超材料制成的偏振转换器结构简单,可以容易地实现电磁波的极化转换。
    • 10. 发明申请
    • CASSEGRAIN MICROWAVE ANTENNA
    • US20150364828A1
    • 2015-12-17
    • US14235058
    • 2011-11-24
    • Ruopeng LiuChunlin JiYutao YueXiaoming Yin
    • Ruopeng LiuChunlin JiYutao YueXiaoming Yin
    • H01Q19/06
    • H01Q19/062H01Q15/0086H01Q15/10H01Q19/065
    • Disclosed is a Cassegrain microwave antenna, which comprises a radiation source, a first metamaterial panel used for radiating an electromagnetic wave emitted by the radiation source, and a second metamaterial panel having an electromagnetic wave convergence feature and used for converting into plane wave the electromagnetic wave radiated by the first metamaterial panel. Employment of the principle of metamaterial for manufacturing the antenna allows the antenna to break away from restrictions of conventional concave lens shape, convex lens shape, and parabolic shape, thereby allowing the shape of the Cassegrain microwave antenna to be panel-shaped or any shape as desired, while allowing for reduced thickness, reduced size, and facilitated processing and manufacturing, thus providing beneficial effects of reduced costs and improved gain effect.
    • 公开了一种卡塞格伦微波天线,其包括辐射源,用于辐射由辐射源发射的电磁波的第一超材料面板和具有电磁波会聚特征的第二超材料面板,用于将电磁波转换为平面波 由第一个超材料面板辐射。 采用超材料制造天线的原理可以使天线脱离常规凹透镜形状,凸透镜形状和抛物线形状的限制,从而使卡塞格伦微波天线的形状成为面板形或任何形状 期望,同时允许减小厚度,减小尺寸,并且促进加工和制造,从而提供降低成本和改善增益效果的有益效果。