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Coherent interactions of light with collisionless atomic hydrogen

Abstract : The aim of this paper is a study of a theoretical optical system made up of distant, very hot spherical blackbodies (named stars) emitting light, protons and electrons cooled into Strömgren's shells of excited H atoms starting on Strömgren's spheres. Long distances between these elementary systems are assumed filled by very low pressure hydrogen atoms whose interactions with light are spatially coherent. This theoretical system is studied using rules of spectroscopy founded on Einstein's theory and laser experiments, widely verified in labs. Questionable astronomical comparisons are clearly distinguished from reliable spectroscopy by an asterisk * at title of sections. Lasers emit light into directions for which amplification is maximum. Likewise limbs of Strömgren's spheres show bright circles possibly split into dots. Superradiant emission is 1 bound to a super-absorption of exciting light so that SN1987A disappearsed when its rings appeared. Impulsive Stimulated Raman Scattering (ISRS) shifts frequencies of light pulses to increase entropy. Theory shows that H atoms excited to 2P state shift very weakly frequencies of pulses making ordinary light. Lyman alpha absorption produces these atoms until absorbed lines are shifted to alpha frequencies, which produces remarkable Karlsson's redshifts 3K and 4K. Ordinary spectroscopy replaces big bang, dark energy and mater, variation of hyperfine constant, and so on. Hubble's law evaluates column densities of excited atomic hydrogen, increasing sizes of galaxies, so that spiral ones are stable without dark matter, and inflating bubbles in their maps.
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Contributor : Jacques Moret-Bailly Connect in order to contact the contributor
Submitted on : Wednesday, June 13, 2018 - 12:00:54 PM
Last modification on : Friday, July 13, 2018 - 2:43:27 PM
Long-term archiving on: : Friday, September 14, 2018 - 8:56:50 PM


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  • HAL Id : hal-01814502, version 1


Jacques Moret-Bailly. Coherent interactions of light with collisionless atomic hydrogen. 2018. ⟨hal-01814502⟩



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