Photonic beam has attracted massive researchers' attention from the time of invention in the earlier decades and would continue due to unimaginable characteristics that contributed potentially to reach the highest data transmission rate and remarkable bandwidth in addition to the less susceptible to the environmental parameters via hundreds of kilometers. This advantage gives to think about it to address the water cycle issue in the shortage water region such as Gulf countries. The proposal considers the controllable beam properties that could carry the evaporation gas to pass through the air pollution layers and complete the condensation process hence reinforces an increase in rainfall chances, and lead to reducing the desalination process as well cost-effectiveness. Accordingly, the photonics beam station could sense and analyze the pollution layer to make a proper decision based on the data variability. The paper takes into account the matter via suggesting a new model that accommodates the significant environmental parameters in the desert area particularly in Qatar which is severely prone to the water lake due to salinity and stark weather in addition to the oil and gas manufacturing, which add a heavy layer in the air. So, this proofing would help the government sector strikingly the meteorology, energy, and resources to mitigate the impact of water shortage and provide a technical solution that would reflect in the whole countries economy. The work also attention to the absorption phenomenon for the most significant available wavelengths in the light beam as it could be working in a wide technology range.
Photonic beam has attracted massive researchers' attention from the time of invention in the earlier decades and would continue due to unimaginable characteristics that contributed potentially to reach the highest data transmission rate and remarkable bandwidth in addition to the less susceptible to the environmental parameters via hundreds of kilometers. This advantage gives to think about it to address the water cycle issue in the shortage water region such as Gulf countries. The proposal considers the controllable beam properties that could carry the evaporation gas to pass through the air pollution layers and complete the condensation process hence reinforces an increase in rainfall chances, and lead to reducing the desalination process as well cost-effectiveness. Accordingly, the photonics beam station could sense and analyze the pollution layer to make a proper decision based on the data variability. The paper takes into account the matter via suggesting a new model that accommodates the significant environmental parameters in the desert area particularly in Qatar which is severely prone to the water lake due to salinity and stark weather in addition to the oil and gas manufacturing, which add a heavy layer in the air. So, this proofing would help the government sector strikingly the meteorology, energy, and resources to mitigate the impact of water shortage and provide a technical solution that would reflect in the whole countries economy. The work also attention to the absorption phenomenon for the most significant available wavelengths in the light beam as it could be working in a wide technology range.
Primary Language | English |
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Subjects | Communication and Media Studies |
Journal Section | Research Articles |
Authors | |
Publication Date | December 21, 2021 |
Submission Date | June 6, 2021 |
Acceptance Date | June 28, 2021 |
Published in Issue | Year 2021 Volume: 2 Issue: 2 |