Detail publikace

Prediction of Transmission Parameters of Atmospheric Link up to 1 THz

Originální název

Prediction of Transmission Parameters of Atmospheric Link up to 1 THz

Anglický název

Prediction of Transmission Parameters of Atmospheric Link up to 1 THz

Jazyk

en

Originální abstrakt

In the paper, the attenuation and dispersion of electromagnetic waves due to molecule resonances of gases in the atmosphere are investigated. The prediction of transmission properties exploits the generally available spectroscopic data of important gases and the measured aerological data valid for the specific geographic area. The integration technique implemented in MATLAB computational environment provides the predicted attenuation and phase dispersion characteristic for altitudes up to 35 km in frequency band 20 - 1000 GHz for the arbitrary linear communication path.

Anglický abstrakt

In the paper, the attenuation and dispersion of electromagnetic waves due to molecule resonances of gases in the atmosphere are investigated. The prediction of transmission properties exploits the generally available spectroscopic data of important gases and the measured aerological data valid for the specific geographic area. The integration technique implemented in MATLAB computational environment provides the predicted attenuation and phase dispersion characteristic for altitudes up to 35 km in frequency band 20 - 1000 GHz for the arbitrary linear communication path.

BibTex


@inproceedings{BUT35023,
  author="Michal {Pokorný} and Zbyněk {Raida}",
  title="Prediction of Transmission Parameters of Atmospheric Link up to 1 THz",
  annote="In the paper, the attenuation and dispersion of electromagnetic waves due to molecule resonances of gases in the atmosphere are investigated. The prediction of transmission properties exploits the generally available spectroscopic data of important gases and the measured aerological data valid for the specific geographic area. The integration technique implemented in MATLAB computational environment provides the predicted attenuation and phase dispersion characteristic for altitudes up to 35 km in frequency band 20 - 1000 GHz for the arbitrary linear communication path.",
  address="Loughborough University",
  booktitle="Loughborough Antennas & Propagation Conference LAPC",
  chapter="35023",
  howpublished="electronic, physical medium",
  institution="Loughborough University",
  year="2010",
  month="november",
  pages="137--140",
  publisher="Loughborough University",
  type="conference paper"
}