Spectral shift caused by the Coriolis force

Abstract
The influence of the Coriolis inertial force, generated by orbital and spin motions of distant objects, on the energies of electromagnetic radiation during the exchange of photons between them is shown. The presence of a red or blue spectral shift arising from this influence has been demonstrated, which is fully consistent with the registered data measured from the spectral observations of the stars and galaxies. Using the dependencies derived in the article, the orbital velocities, angular velocities and spectral offsets for 18 randomly selected nearby stars from our galaxy were calculated, as well as the orbital velocities, angular velocities and spectral offsets of 31 randomly selected galaxies from the visible universe. The explanation of spectral shifts accepted in astrophysics with the Doppler effect implies the moving away or approaching of the light sources, which leads to the assumption of the expansion of the universe, while the influence of the Coriolis force discussed in the article gives the same results in the spectral shifts without the need for this assumption.

Keywords
Observer, stars, galaxies, Mega galaxy, Doppler effect, inertial forces, Coriolis force, non-inertial coordinate system photons, photon energy, redshift, blue shift, Hubble's law.

Cite this paper
Nasko Elektronov, Zhivko Kushev, Spectral shift caused by the Coriolis force , SCIREA Journal of Physics. Volume 8, Issue 6, December 2023 | PP. 562-574. 10.54647/physics140592

References

[ 1 ]	B. W. Carroll and D. A. Ostlie, An Introduction to Modern Astrophysics, International ed. (Pearson, London, 2013), p. 1173.
[ 2 ]	S. Hawking,ABriefHistory of Time (BantamBooks, New York, 1988), p. 125.
[ 3 ]	“The Nobel Prize in Physics. 2011,” Retrieved on April 16, 2015.
[ 4 ]	Feynman, Leighton and Sands (1989) or any introductory undergraduate (and many high school) physics textbooks. Taylor (1992) for a relativistic discussion. Binney and Merrifeld (1998), Carroll and Ostlie (1996), Kutner (2003) for applications in astronomy.
[ 5 ]	Misner, Thorne and Wheeler (1973) and Weinberg (1971) or any of the physical cosmology textbooks
[ 6 ]	Doppler, Christian (1846). Beiträge zur fixsternenkunde. 69. Prague: G. Haase Söhne. Bibcode:1846befi.book.....D.
[ 7 ]	Maulik, Dev (2005). "Doppler Sonography: A Brief History". In Maulik, Dev; Zalud, Ivica. Doppler Ultrasound in Obstetrics And Gynecology. ISBN 978-3-540-23088-5
[ 8 ]	Mandelberg, Hirsch I.; Witten, Louis (1962). "Experimental Verification of the Relativistic Doppler Effect". Journal of the Optical Society of America. 52 (5): 529–535. Bibcode:1962JOSA...52..529M. doi:10.1364/JOSA.52.000529.
[ 9 ]	Hasselkamp, D.; Mondry, E.; Sharmann, A. (1979). "Direct observation of the transversal Doppler-shift". Zeitschrift für Physik A. 289 (2): 151–155. Bibcode:1979ZPhyA.289..151H. doi:10.1007/BF01435932. S2CID 120963034.
[ 10 ]	Einstein, Albert (1907). "On the Possibility of a New Test of the Relativity Principle (Über die Möglichkeit einer neuen Prüfung des Relativitätsprinzips)". Annalen der Physik. 328 (6): 197–198. Bibcode:1907AnP...328..197E. doi:10.1002/andp.19073280613.
[ 11 ]	Einstein, Albert (1905). "Zur Elektrodynamik bewegter Körper". Annalen der Physik (in German). 322 (10): 891–921. Bibcode:1905AnP...322..891E. doi:10.1002/andp.19053221004. English translation: ‘On the Electrodynamics of Moving Bodies’
[ 12 ]	Kündig, Walter (1963). "Measurement of the Transverse Doppler Effect in an Accelerated System". Physical Review. 129 (6): 2371–2375. Bibcode:1963PhRv..129.2371K. doi:10.1103/PhysRev.129.2371.
[ 13 ]	O'Connor, John J.; Robertson, Edmund F. (1998). "Christian Andreas Doppler". MacTutor History of Mathematics archive. University of St Andrews.
[ 14 ]	Huggins, William (1868). "Further Observations on the Spectra of Some of the Stars and Nebulae, with an Attempt to Determine Therefrom Whether These Bodies are Moving towards or from the Earth, Also Observations on the Spectra of the Sun and of Comet II". Philosophical Transactions of the Royal Society of London. 158: 529–564. Bibcode:1868RSPT..158..529H. doi:10.1098/rstl.1868.0022.
[ 15 ]	Reber, G. (1995). "Intergalactic Plasma". Astrophysics and Space Science. 227 (1–2): 93–96. Bibcode:1995Ap&SS.227...93R. doi:10.1007/BF00678069. S2CID 30000639.
[ 16 ]	Pannekoek, A. (1961). A History of Astronomy. Dover. p. 451. ISBN 978-0-486-65994-7.
[ 17 ]	Bélopolsky, A. (1901). "On an Apparatus for the Laboratory Demonstration of the Doppler-Fizeau Principle". Astrophysical Journal. 13: 15. Bibcode:1901ApJ....13...15B. doi:10.1086/140786.
[ 18 ]	"IAU members vote to recommend renaming the Hubble law as the Hubble–Lemaître law" (Press release). IAU. 29 October 2018. Retrieved 2018-10-29.
[ 19 ]	Overbye, Dennis (20 February 2017). "Cosmos Controversy: The Universe Is Expanding, but How Fast?". New York Times. Retrieved 21 February 2017.
[ 20 ]	Coles, P., ed. (2001). Routledge Critical Dictionary of the New Cosmology. Routledge. p. 202. ISBN 978-0-203-16457-0.
[ 21 ]	"Hubble Flow". The Swinburne Astronomy Online Encyclopedia of Astronomy. Swinburne University of Technology. Retrieved 2013-05-14.
[ 22 ]	Van den Bergh, S. (2011). "The Curious Case of Lemaitre's Equation No. 24". Journal of the Royal Astronomical Society of Canada. 105 (4): 151. arXiv:1106.1195. Bibcode:2011JRASC.105..151V.
[ 23 ]	Nussbaumer, H.; Bieri, L. (2011). "Who discovered the expanding universe?". The Observatory. 131 (6): 394–398. arXiv:1107.2281. Bibcode:2011Obs...131..394N.
[ 24 ]	Way, M.J. (2013). "Dismantling Hubble's Legacy?". ASP Conference Proceedings. 471: 97–132. arXiv:1301.7294.
[ 25 ]	Feynman, R., QED: The Strange Theory of Light and Matter, Penguin 1990 Edition, page 84.
[ 26 ]	Emil Tocaci, Clive William Kilmister Relativistic Mechanics, Time, and Inertia. Springer. p. 251. (1984).
[ 27 ]	Milton A. Rothman (1989). Discovering the Natural Laws: The Experimental Basis of Physics. Courier Dover Publications. p. 23
[ 28 ]	Nasko Elektronov, Zhivko Kushev Electromagnetic radiation and inertial forces Physics Essays, Volume 32, Number 4, December 2019, pp. 480-483(4) DOI: https://doi.org/10.4006/0836-1398-32.4.480
[ 29 ]	https://ned.ipac.caltech.edu/Documents/Guides/Searches ,NED NASA Database
[ 30 ]	https://simbad.cds.unistra.fr/simbad/sim-fbasic, Sinbad Database