한국해양대학교

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대기중 상대 습도에 따른 테라헤르츠 감쇠연구

Title
대기중 상대 습도에 따른 테라헤르츠 감쇠연구
Alternative Title
Study of terahertz attenuation according to relative humidity in the atmosphere
Author(s)
권재광
Keyword
SpectroscopyPower AttenuationContinuum Absorption
Issued Date
2021
Publisher
한국해양대학교 대학원
URI
http://repository.kmou.ac.kr/handle/2014.oak/12637
http://kmou.dcollection.net/common/orgView/200000374374
Abstract
In this study, I measured power attenuation in the range of 0–1THz based on different water vapor densities. THz pulses propagated through an 18.61-m humidity control cell. The average relative humidity in the cell was calculated accurately using two hygrometers and was within the maximum error range of 1%. The Radio communication Sector of the International Telecommunication Union (ITU-R) P. 676.11 provides an estimation method for atmospheric attenuation of electromagnetic waves in the frequency band range of 1–1000GHz. I confirmed a discrepancy in the experimental value in ITU-R as water vapor density increased. These results were similar to the results reported at Oklahoma state university in 2018. In the present study, I has, thus, introduced a simple method to reduce inconsistency in the far-wing region. The high strength ITU-R pseudo line 1.780 THz can be effective from 0 to 1THz. The pseudo-line slope can be changed in three ways, i.e. by changing the center frequency, strength, and width of the pseudo-line. A change in the center frequency hardly resulted in any difference from the experimental value of the 1.940 THz pseudo-line. Compared with the existing 1.780 THz line, the 1.940 THz pseudo-line shows a maximum 26dB/km reduction in the W2 region and does not exceed the maximum 8dB/km even with the inclusion of the entire wing regions. Additionally, i defined self and foreign continuum coefficients through three methods and compared the results with those of the other experiments.
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전기전자공학과 > Thesis
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