The current paper reports first and definite experimental evidence for γ-, X-, or β radiation causing UV dominant optical radiation from (1) radiochemicals such as 131 I; (2) XRF sources such as Rb XRF source present as salts; and (3) metal sources such as 57 Co, and Cu XRF sources. Due to low quantum yield a need arose to develop two techniques with narrow band optical filters, and sheet polarizers that helped in the successful detection of optical radiation. The metal 57 Co spectrum observed at room temperature hinted that it could be optical emission from excited 57 Co atoms by a previously unknown phenomenon. In order to explain UV emission, it was predicted that some eV energies higher than that of UV, termed temporarily as Bharat radiation are generated within the excited atom, while γ-, X-, or β radiation passes through core-Coulomb field. In turn, the Bharat energy internally produced within the excited atom causes UV dominant high-energy spectrum by valence excitation. As excited atoms become free from surrounding unexcited atoms by valence excitation, room temperature atomic spectra of solid radioisotopes and XRF sources became a possibility. It implies existence of temporary atomic state of solids. The experimental evidence that γ-, X-, and β radiations causing UV dominant optical emission from within excited atoms of radioisotopes suggests the possibility for solar γ-, X-, and β radiations causing EUV by the atomic phenomenon described here.
Existence of Bharat Radiation emission has been first predicted in 1998 to explain the experimental discovery of UV dominant optical emission from radioisotopes and XRF (X-ray fluorescent) sources by a previously unknown atomic phenomenon. Presence of Bharat Radiation wavelengths has been shown for the first time in the wavelength gap in electromagnetic spectrum situated in between X-ray and the extreme ultraviolet (EUV) wavelengths in the revised Rb XRF spectrum. For evidence of Bharat Radiation, a comparison of the solar spectrum reported by various researchers since 1960 with the revised Rb XRF spectrum met with unexpected success. The three distinct solar spectral ranges remained unrecognized for the last half a century are now identified as of Bharat Radiation from 12.87 to 31 nm, and EUV from 31
nm onwards. Evidence of Sun's Bharat Radiation emission implies a fundamental change in our understanding the Sunlight phenomenon from the traditional belief that fusion powers Sun light. This new insight supports the previously reported author's view that γ-, X-, and β emissions from fission products (radioisotopes) of 235 U fission taking place on Sun's visible surface cause Bharat Radiation followed by EUV and UV dominant optical emission.
Recently, rare diseases have received worldwide attention. The developing countries have fallen seriously behind in regards to awareness, drug development, diagnosis, and social services. India, which has one-third of the world's rare disease population, has neither accepted definition for RD nor an accurate assessment of the problem. Due to the exorbitant cost of orphan drugs, difficulties in diagnosis and treatments, the Indian government is often in a dilemma as to how to effectively, and efficiently formulate a National Health Policy with a 1.45% GDP healthcare budget for 1.3 billion people.
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