A terahertz quasi-optical power combining and amplifying device

An amplifying device and terahertz technology, which is applied to power amplifiers, electrical components, antenna arrays, etc., can solve the problem of low radiation power in the terahertz frequency band, and achieve the effects of multiple synthesis channels, wide operating frequency band, and low processing difficulty

Inactive Publication Date: 2018-01-30
BEIJING INSTITUTE OF TECHNOLOGYGY
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  • Claims
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Problems solved by technology

[0004] Aiming at the problem of low radiation power in the current terahertz frequency band, the present invention provides a terahertz quasi-optical power synthesis and amplification device, which includes a microwave horn transmitting antenna, a dielectric lens A, an N-level microwave amplification array chip, and a terahertz frequency doubling array Chip, dielectric lens B and terahertz horn receiving antenna

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  • A terahertz quasi-optical power combining and amplifying device
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  • A terahertz quasi-optical power combining and amplifying device

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Embodiment

[0069] like figure 1 and Figure 10 As shown, a terahertz quasi-optical power combining and amplifying device, the device includes a microwave horn transmitting antenna, a dielectric lens A, a first-stage microwave amplification array chip, a second-stage microwave amplification array chip, and a third-stage microwave amplification array chip , a terahertz frequency doubling array chip, a dielectric lens B and a terahertz horn receiving antenna; the microwave horn transmitting antenna is located at the focus of the dielectric lens A; the terahertz horn receiving antenna is located at the focus of the dielectric lens B, and the receiving dielectric lens B focuses terahertz signal.

[0070] like figure 1 As shown, dielectric lens A is made of silicon material, and dielectric lens B is made of silicon material;

[0071] The microwave horn transmitting antenna radiates the microwave spherical wave signal and transmits it to the dielectric lens A, and the dielectric lens A conve...

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PUM

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Abstract

The invention relates to a terahertz quasi-optical power combining and amplifying device and is applied to power combination and amplification of a terahertz frequency band. The device comprises a microwave transmission horn antenna, a dielectric lens A, a microwave amplification array chip, a terahertz frequency-doubling array chip, a dielectric lens B and a terahertz horn reception antenna. According to the focusing effect of the dielectric lens A, spherical electromagnetic wave signals input by the microwave transmission horn antenna are converted into plane wave signals which are transmitted to the microwave amplification array chip to realize amplification and output. Amplified microwave signals are transmitted to the terahertz frequency-doubling array chip to realize frequency doubling and output. The frequency-doubling terahertz signals combine into high-power signals through the dielectric lens B in the form of quasi-optical wave beams, thereby realizing coupling and matching with the terahertz horn reception antenna. The high-power terahertz signals can be outputted by adopting a quasi-optical power combining structure, thus the terahertz quasi-optical power combining and amplifying device is simple in structure and convenient to debug.

Description

technical field [0001] The invention relates to a terahertz quasi-optical power combining and amplifying device, specifically, it is a high-efficiency spatial power combining and amplifying technology field applicable to the terahertz frequency band. Background technique [0002] With the development of science and technology, terahertz frequency band systems are more and more used in microwave remote sensing, medical imaging, radar, space communication and other fields due to their large transmission signal capacity, compact structure and higher resolution. However, the development of terahertz technology still faces many difficulties. First, as the frequency continues to rise, in the terahertz frequency band, various transmission lines such as waveguides and microstrips have disadvantages such as smaller size, increased loss, reduced power, difficult processing, and high cost. Second, the optical properties of terahertz electromagnetic waves are gradually emerging, and th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01Q19/06H01Q13/02H01Q21/00H03F3/20
Inventor 王旭东吕昕司黎明于伟华倪鸿宾王志明张庆乐罗晓斌郭大路
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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