LSBC challenges the Entrepreneurs: Analyse the Cosmic Radiation Exposure!
Atmospheric Research Scientists dive deep into the research area of atmospheric sciences. Indeed, the remarkable Researchers and sagacious Scientists absolutely agree that the atmosphere of our mother planet Earth protects the flora and fauna, humankind, and the natural resources. At the Luxembourg Slovenian Business Club (LSBC), the Author boldly believes that humanity can analyze both Cosmic and Electromagnetic Radiation Exposure. Also, we can study the magnetic field along with a profoundly persistent vision of our Earth. Operating in Luxembourg, the LSBC challenges entrepreneurs to discover solutions to address the negative effects of radiation on both biological and mechanical systems. As a matter of fact, the entrepreneurs are encouraged to embark on a venture and empower humanity with sustainability. Thus, the LSBC will absolutely assist entrepreneurs to reach a higher performance level in the healthy heart of Europe.
Radiation, as shown in Fig. 1., is a form of energy. The sources of radiation emit or transmit in various forms – that is to say, particles, rays, and/or waves. Technically, in some scenarios, humankind can see the radiation with naked eyes – that is to say, the visible light. Indeed, in some scenarios, humankind can feel the radiation – that is to say, the infrared radiation. Honestly, in most scenarios, special technological devices allow humankind to realize the existence of radiation directly or indirectly. According to the Author and his independent research work in Space and Climate Physics, the radiation can have negative and positive effects on both the biological and mechanical systems. Thus, the Author actively aims to focus on ‘Earth Applications (Sustainable Moon, 2019)’ while intensively introducing the concept of a ‘Sustainable Earth’.
SAR Polarimetry – Advancing Research
In our last research work ‘LSBC challenges the Entrepreneurs: Predict the Fire Outbreaks from Space!’, we concluded that nature is trying to teach humankind the importance of preservation and protection of natural resources. Consequently, the Author understands that the spaceborne measurements will assist the entrepreneurs to develop climate change applications and services (Lee, J., and Pottier, E., 2009). In fact, the variation in intensity of the microwave energy propagation and scattering which represent different atmospheric and oceanic, windy, and surface phenomena (Li, H., et al., 2011) allows us to understand the polarization of the radiation. Indeed, the Synthetic Aperture Radar (SAR) image intensity variations are proven to be in agreement with theoretical estimates (Alpers, W., and Brummer, B., 1994). Thus, the measurement of the varying composition of aerosols augments the analysis of both the atmospheric and environmental ecosystems while protecting natural resources.
Concept and Application
Globally, remarkably rich research of researchers and scientific discovery of sage scientists in connected countries assist in predicting the attributes of the climate and the weather of storms on the sea, wind belts and wind-generated waves (Atlas, D., 1994). Accordingly, the Synthetic Aperture Radar (SAR) Images highlighting the radiation centers will be of great importance to extract the radiation data in frequency or wavelengths. In fact, an artificial intelligence system can monitor specific sets of scientific parameters from atmospheric research. Consequently, the Author firmly focuses on ‘Sustainability for Society’ to develop new products and services that drive socio-economic growth of humanity. Hence, the LSBC is ready to reinforce the luminaries.
According to history, two atomic bombs were dropped on the flora and fauna, human populations, and the natural resources. Humankind has felt, seen, and learned the long-term health effects and other negative effects on both the biological and mechanical systems too. In fact, nature taught humanity the importance of protecting natural resources. Accordingly, the worldwide cooperation to reach for the stars will allow us to advance technology for humankind. As a result, the Author holistically highlights that humankind is responsible to protect mother planet Earth while sustainably exploring other celestial bodies, the Moon, and the Interstellar Space.
Bauer, C., Bausmayer, J., Cohen, O., Diggewadi, A., Harris, K., Kaluthantrige, A., Lipińska, M., Liu, C., Mao, L., Claros, P., Nassey, C., Noetsele, L., Ritter, S., Dashtgol, F., Townsend, A., Vivenzio, S., Hirschberg, J., Xu, X., Zecca, F. (2019). Sustainable Moon. Library – International Space University. https://isulibrary.isunet.edu/doc_num.php?explnum_id=1628
Li, H., Perrie, W., Guo, L., Zhang, B. (2011). On polarimetric characteristics in SAR images of mesoscale cellular convection in the Marine Atmospheric Boundary Layer. Journal of Geophysical Research, 116(C8). https://doi.org/10.1029/2010JC006738
Alpers, W., Brummer, B. (1994). Atmospheric Boundary Layer rolls observed by the synthetic aperture radar aboard the ERS-1 Satellite. Journal of Geophysical Research, 99(C6), 12,613-12,621. https://doi.org/10.1029/94JC00421
Atlas, D. (1994). Footprints of storms on the sea: A view from spaceborne Synthetic Aperture Radar. Journal of Geophysical Research, 99, 7961-7969. https://doi.org/10.1029/94JC00250
Lee, J., Pottier, E. (2009). Polarimetric Radar Imaging: From Basics to Applications. CRC Press, Boca Raton, Fla.