Slotted branch type terahertz wave polarization beam splitter

A technology of polarizing beam splitter and slotted waveguide, which is applied to the coupling of instruments, optical waveguides, optical guides, etc., can solve the problems of difficult manufacturing process, low beam splitting rate, complex structure, etc., and achieves simple structure and high beam splitting rate. , the effect of small size

Inactive Publication Date: 2013-02-13
CHINA JILIANG UNIV
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Problems solved by technology

[0004] In order to overcome the disadvantages of relatively low beam splitting rate, complicated structure, difficult actual manufacturing process and high cost in the prior art, the present invention provides a slotted branch type terahertz wave polarization beam splitter with high beam splitting rate

Method used

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  • Slotted branch type terahertz wave polarization beam splitter
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  • Slotted branch type terahertz wave polarization beam splitter

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Embodiment 1

[0016] Slotted branched terahertz wave polarizing beam splitter:

[0017] The material of the matrix is ​​silicon dioxide. The length of the substrate is 2400 μm, the width is 1200 μm, and the thickness is 300 μm. The thickness of the inverse z-shaped grooved silicon waveguide and the z-shaped branched silicon waveguide is 200 μm. The rectangular slotted silicon waveguide has a length of 1200 μm and a width of 300 μm. Both the first straight corner connected silicon waveguide and the second right corner connected silicon waveguide are arc-shaped with two straight corners, and the radius of the arc is 300 μm. The lengths of the first output silicon waveguide and the second output silicon waveguide are respectively 600 μm and 450 μm, and the width is 300 μm. The lengths of the first rectangular coupling slit and the second rectangular coupling slit are respectively 400 μm and 200 μm, and the width is 30 μm. The octagonal slotted waveguide has a length of 400 μm and a width o...

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Abstract

The invention discloses a slotted branch type terahertz wave polarization beam splitter. The beam splitter comprises a signal input end, a first signal output end, a second signal output end, a substrate, an inverse z-shaped slotted silicon waveguide and a z-shaped branch silicon waveguide, wherein the inverse z-shaped slotted silicon waveguide and the z-shaped branch silicon waveguide, which are not adjacent to each other, are arranged on the substrate; the inverse z-shaped slotted silicon waveguide is formed by connecting a rectangular slotted silicon waveguide, a first straight corner connecting silicon waveguide and a first output silicon waveguide in order; a first rectangular coupling slot is arranged on the rectangular slotted silicon waveguide; the z-shaped branch silicon waveguide is formed by connecting an octangular slotted waveguide, a rectangular waveguide, a second straight corner connecting silicon waveguide and a second output silicon waveguide in order; a second rectangular coupling slot is arranged on the octangular slotted waveguide; and signals are subjected to vertical incidence from the signal input end, pass through the inverse z-shaped slotted silicon waveguide and the z-shaped branch silicon waveguide and are output from the signal output ends. The beam splitter has the advantages of simple structure, high beam splitting rate, small dimension, low cost, convenience in preparation and the like.

Description

Technical field [0001] The present invention involves a beam device, especially the tutra bias polarizer with a groove branch. Background technique [0002] The Taihez wave refers to the electromagnetic wave with the frequency between 0.1THz ~ 10THz (wavelength in 30 μm ~ 3mm), which is located between microwave and infrared on the electromagnetic spectrum.Prior to the mid -1980s, due to the lack of effective methods and detection methods, scientists had a limited understanding of the electromagnetic radiation nature of the band. It was the only last spectrum in the electromagnetic spectrum that did not obtain more comprehensive research and used well.The interval is the "gap" area that human beings have not yet fully developed.Taehzbo is in the field of electronics transition from photonology, integrating the advantages of microwave communication and optical communication: First of all, Taehzbo's communication can obtain much width larger than microwave communication, which can ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B6/27G02B6/126
Inventor 李九生
Owner CHINA JILIANG UNIV
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