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A measuring device and method for radio frequency line transmission factors based on atomic energy levels

A technology of transmission factor and measurement device, applied in the field of measurement device of radio frequency line transmission factor, can solve the problems of large measurement error and complicated measurement process, and achieve the effect of overcoming large error, simple realization, and easy miniaturization

Active Publication Date: 2017-12-12
SHANXI UNIV
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Problems solved by technology

[0004] The purpose of the present invention is to solve the technical problems of large measurement error and complex measurement process in the existing radio frequency line transmission factor measurement process, and to provide a radio frequency line transmission factor measurement device and method based on atomic energy level

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  • A measuring device and method for radio frequency line transmission factors based on atomic energy levels
  • A measuring device and method for radio frequency line transmission factors based on atomic energy levels
  • A measuring device and method for radio frequency line transmission factors based on atomic energy levels

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Embodiment Construction

[0017] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0018] Such as figure 1 and figure 2 Shown, a kind of measuring device of the radio frequency line transmission factor based on atomic level in the present embodiment comprises: cesium atom sample cell 1, the first laser light source 2, the second laser light source 3, the first dichroic mirror 4, the second Dichroic mirror 5, photodetector 6, first polarization beamsplitter prism 7, first half-wave plate 8, second polarization beamsplitter prism 9, second half-wave plate 10, radio frequency source 11 and radio frequency transmission line 12; the first laser The light source 2 is a probe light source, and the first dichroic mirror 4 is located on the probe light path; the first polarization beam splitter prism 7, the first half-wave plate 8, the cesium atom sample cell 1, the second half-wave plate 10, the second Polarizing beamsplitter prism 9, the ...

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Abstract

The invention relates to a measuring device and method for radio frequency line transmission factors based on atomic energy levels. The invention aims to solve the technical problems of big measurement error and complex calibration processes in a conventional radio frequency line transmission factor measuring process. The method comprises the steps that alkali metal atoms generate an EIT spectrum by the action of two laser light sources; the EIT spectrum forms intersecting points of spectral lines by the action of a radio frequency electric field; a voltage value Vo, i of a radio frequency source is read and the electric field intensity value corresponding to one spectral line intersecting point is calculated according to Eo, i=Vo, i / d (d is the distance between parallel electrodes); the value is compared with a theoretical electric field value Ei to obtain a radio frequency line transmission factor ti=Ei / Eo, I corresponding to the intersecting point; by computing the average of the tis of different spectral line intersecting points, the precision of the radio frequency line transmission factor t can be further improved. Self-calibration measurement based on an atomic energy level structure is achieved; measurement does not require external equipment and is free from influence of external environment; the method is simple to implement.

Description

technical field [0001] The present invention relates to the technique of measuring the transmission factor of radio frequency lines, in particular to a measuring device and method for the transmission factor of radio frequency lines based on the atomic energy level. Background technique [0002] In the radio frequency signal transmission system, if the radio frequency transmission line and the signal source cannot be completely matched, it will cause signal reflection, interference, ringing effect, antenna effect, attenuation, superposition, etc. In the case of signal distortion, the measurement effect of the transmission factor of the radio frequency line is very important. [0003] At present, network analyzers are mainly used to measure the transmission efficiency of radio frequency lines. By connecting the two ends of radio frequency lines to the signal output terminal and signal receiving terminal of network analysis, the transmission efficiency of radio frequency lines...

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Application Information

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IPC IPC(8): G01R33/32
CPCG01R33/32
Inventor 赵建明焦月春贾锁堂
Owner SHANXI UNIV
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