Identifying Habitable Exoplanets Using the Earth and ‎‎Cosmic Harmonic Factor

Exoplanets

Authors

  • Elsiddig Mohamed Ali Elamin Milton, ON, Canada ‎

DOI:

https://doi.org/10.55672/hij2023pp1-4

Keywords:

Exoplanets, habitability, Cosmic Harmonic Factor‎

Abstract

The search for habitable exoplanets has been an active area of research in astronomy for decades. In this study, we sought to identify exoplanets that may be suitable for life by comparing the resulting Planets to Star distance when applying the Earth & Cosmic Harmonic Factor for a sample of 5200 exoplanet candidates identified by NASA to that of Earth. After analyzing the data, we identified 5 exoplanets that had the Earth & Cosmic Harmonic Factor ratios within a range similar to that of Earth. Our findings suggest that these exoplanets may have conditions suitable for life and warrant further investigation.

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Author Biography

Elsiddig Mohamed Ali Elamin, Milton, ON, Canada ‎

Elsiddig Mohamed Ali Elamin
Milton, ON, Canada

[email protected]

References

‎[1]‎ B. Nikouravan, "Estimating Physical Properties ‎of Confirmed Exoplanets," vol. 11, pp. 17-29. doi: ‎https://doi.org/10.14331/ijfps.2021.330146

‎[2]‎ D. Bashi, R. Helled, S. Zucker, C. J. A. Mordasini, and ‎Astrophysics, "Two empirical regimes of the planetary ‎mass-radius relation," vol. 604, p. A83, 2017.‎

‎[3]‎ S. J. A. N. Schuh, "Pulsations and planets: The ‎asteroseismology‐extrasolar‐planet connection," vol. ‎‎331, ed: Wiley Online Library, 2010, pp. 489-501.‎

‎[4]‎ S. Müller, M. Ben-Yami, and R. J. T. A. J. Helled, ‎‎"Theoretical versus observational uncertainties: ‎composition of giant exoplanets," vol. 903, no. 2, p. ‎‎147, 2020.‎

‎[5]‎ J. Yang, G. Boué, D. C. Fabrycky, and D. S. J. T. A. J. ‎L. Abbot, "Strong dependence of the inner edge of the ‎habitable zone on planetary rotation rate," vol. 787, ‎no. 1, p. L2, 2014.‎

‎[6]‎ M. J. Way and A. D. J. J. o. G. R. P. Del Genio, ‎‎"Venusian habitable climate scenarios: Modeling ‎Venus through time and applications to slowly ‎rotating Venus‐like exoplanets," vol. 125, no. 5, p. ‎e2019JE006276, 2020.‎

‎[7]‎ S. Seager and W. J. S. a. Bains, "The search for signs ‎of life on exoplanets at the interface of chemistry and ‎planetary science," vol. 1, no. 2, p. e1500047, 2015.‎

‎[8]‎ D. Schulze-Makuch and L. N. Irwin, Life in the ‎Universe. Springer, 2004.‎

‎[9]‎ V. S. Airapetian, C. H. Jackman, M. Mlynczak, W. ‎Danchi, and L. J. S. r. Hunt, "Atmospheric beacons of ‎life from exoplanets around G and K stars," vol. 7, no. ‎‎1, p. 14141, 2017.‎

‎[10]‎ M. J. Aschwanden and F. J. G. Scholkmann, ‎‎"Exoplanet predictions based on harmonic orbit ‎resonances," vol. 5, no. 4, p. 56, 2017.‎

‎[11]‎ R. Akeson et al., "The NASA exoplanet archive: data ‎and tools for exoplanet research," vol. 125, no. 930, p. ‎‎989Available: ‎https://exoplanetarchive.ipac.caltech.edu/‎

‎[12]‎ E. M. A. Elamin, "The Earth The Earth and Cosmic ‎Harmonic Factor," vol. 3, no. 1, pp. 18-19. doi: ‎https://doi.org/10.14331/ijfps.2013.330047

‎[13]‎ N. E. Archive, "NASA Exoplanet Archive," u. c. w. t. N. ‎A. a. S. NASA Exoplanet Archive is operated by the ‎California Institute of Technology, Ed., ed, 2023.‎

Published

2023-03-03

How to Cite

Mohamed Ali Elamin, E. (2023). Identifying Habitable Exoplanets Using the Earth and ‎‎Cosmic Harmonic Factor: Exoplanets. Hyperscience International Journal, 3(1), 1–4. https://doi.org/10.55672/hij2023pp1-4