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- ...my course [[Radiation astronomy/Courses/Principles|principles of radiation astronomy]], it is also independent. Some suggested entities to consider are electromagnetic radiation, electrons, positrons, neutrinos, gravity, time, Euclidean space, Non-Eucli ...17 KB (2,615 words) - 14:13, 12 November 2023
- ...my course [[Radiation astronomy/Courses/Principles|principles of radiation astronomy]], it is also independent. ...hromosphere, a shell around the Sun above the photosphere, electromagnetic radiation, the neutrinos themselves, mass, time, Euclidean space, Non-Euclidean space ...23 KB (3,468 words) - 09:48, 30 May 2023
- {{main|Radiation astronomy/Neutrinos|Neutrino astronomy|Neutrinos}} {{main|Radiation astronomy/Electrons|Electron astronomy|Electrons}} ...46 KB (6,808 words) - 21:49, 30 November 2020
- ...ing for the circuit involved in the solar wind is an example of '''circuit astronomy'''. ...t of [[w:atoms|atoms]]. Collectively, these electrons are defined as delta radiation when they have sufficient energy to ionize further atoms through subsequent ...57 KB (8,851 words) - 00:27, 1 December 2020
- ...Keynote lectures/Detectors for radiation astronomy|Detectors for radiation astronomy]] (116 kB) (26 January 2019) * [[Draft:Keynote lectures/Radiation|Radiation]] (154 kB) (12 December 2019) ...43 KB (6,339 words) - 09:34, 9 June 2021
- |editor=The Department of Geophysics of The Niels Bohr Institute for Astronomy Physics and Geophysics at The University of Copenhagen Denmark ...tion shield against hard cosmic rays, leading to a significantly increased radiation exposure."<ref name= Nowaczyk/> ...211 KB (28,458 words) - 20:48, 16 April 2022