Download PDFOpen PDF in browserExploring Symmetry in Photon Momentum Changes: Insights into Redshift and Blueshift Phenomena in Gravitational FieldsEasyChair Preprint 122462 pages•Date: February 22, 2024AbstractThis abstract provides a comprehensive overview of the intricate relationship between photon momentum changes and gravitational fields, as discussed in the context of the paper titled "Distinguishing Photon Interactions: Source Well vs. External Fields." The exploration delves into the fundamental symmetry observed in photon momentum changes, elucidating the principles of redshift and blueshift phenomena within gravitational fields. Through mathematical formulations and theoretical analyses, the abstract highlights how changes in photon momentum and wavelength are intricately linked, with the constant 'h' representing Planck's constant playing a crucial role. Furthermore, the abstract discusses the concept of symmetry in photon momentum changes, demonstrating how momentum exchanges in external gravitational fields ultimately lead to an equilibrium state. This enhanced understanding of photon interactions with gravitational fields contributes to the broader comprehension of astrophysical phenomena and energy conservation principles. Keyphrases: Photon Momentum Changes, Redshift and Blueshift Phenomena, Symmetry in Momentum, energy conservation, external gravitational fields
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