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Pachankis, Y.I. Nemesis. Encyclopedia. Available online: https://encyclopedia.pub/entry/53809 (accessed on 16 November 2024).
Pachankis YI. Nemesis. Encyclopedia. Available at: https://encyclopedia.pub/entry/53809. Accessed November 16, 2024.
Pachankis, Yang I.. "Nemesis" Encyclopedia, https://encyclopedia.pub/entry/53809 (accessed November 16, 2024).
Pachankis, Y.I. (2024, January 14). Nemesis. In Encyclopedia. https://encyclopedia.pub/entry/53809
Pachankis, Yang I.. "Nemesis." Encyclopedia. Web. 14 January, 2024.
Nemesis
Edit

Nemesis is a hypothesized companion object orbiting the Sun, motivated by the claim of a terrestrial extinction periodicity. Astronomer Percival Lowell in 1915 thought that some glitches in the orbit of Uranus might be caused by what he dubbed Planet X, and led to the discovery of Pluto in 1930. The existence of the object beyond Pluto may be able to explain the architecture of the Edgeworth–Kuiper Belt and a secular perihelion precession of Saturn. The Nemesis hypothesis has also been used to explain the measurements of the ages of 155 lunar spherules from the Apollo 14 site.

Planet X Pluto mass extinction

Introduction

The undiscovered stellar companion of the sun Nemesis moves along a highly elliptical orbit, which would periodically disturb the Oort cloud and is thought to be responsible of the periodicity of about 26 million years in extinction rates on the Earth over the last 250 million years.[1] It was named after the ancient Greek goddess of revenge. Astronomers Whitmire, Jackson, and Davis et al. first proposed Nemesis being a binary stellar companion of the sun in 1984, which moves with it around a common centre of mass. The existence of a Jupiter-sized brown dwarf, however, is lacking for the completeness of evidence in the solar system on the existence of Nemesis, and existing literature have still been regarding Pluto as a planet.[2]

Scientific Evidence

The preliminary search, initiated by Percival Lowell on the Planet X, led to the discovery of Pluto on February 18, 1930 at the Lowell Observatory in Flagstaff, Arizona after his death.[3][4] The discovery by astronomer Clyde W. Tombaugh, with contributions from William H. Pickering, was categorized according to Lowell's theoretical input, but only to be recognized for being a dwarf in 2006.[5]

While Lowell's paradigm originated from celestial mechanics, later theorizarion formalizing the Nemesis hypothesis combined archeoogy with cosmology.[6] Marc Davis, Piet Hut, and Richard A. Muller weighed the archeological evidence of species extinction on earth with a 26 million year periodicity, and proposed an unseen solar companion traveling in a moderately eccentric orbit, which at its closest approach (perihelion) passes through the "Oort cloud" of comets which is believed to surround the sun.[7]

Correlative evidence were summarized by J. P. Philippov and M. I. Chobanu:[2]

  1. Approximately 50% of all main sequence stars are part of double or multiple stars systems, and current observational evidence cannot rule out the Nemesis hypothesis, with a possibility of a brown dwarf companion to the Sun with a mass of 0.0002 solar masses;
  2. Palaeontologists J. Sepkoski and D. M. Raup found 12 events corresponding to sharp increases in mortality of living organisms in the last 250 million years of Earth's history, including the alleged disappearance of the dinosaurs 65 million years ago;
  3. The periodicity of comets coming from the Oort cloud appears to be directly related to the periodicity in movement of an unknown massive celestial body;[8]
  4. It can only be easily explained by the existence of a massive celestial body located at the Solar System periphery that Pluto, Eris, Sedna, and other trans-Neptunian and extreme trans-Neptunian objects have very elongated orbits and large values of orbit inclinations to the plane of the ecliptic;
  5. Evidence from studies on circumstellar discs of stars exhibited the possibility for a stellar protoplanetary disc occupying exceptionally wide orbit;
  6. A number of massive planets may be located beyond the orbit of Pluto at distances of about 205-264, 346-416, 610-692, and 972-1,001 AU from the Sun;
  7. Phenomena similar or comparable to Nemesis in other galaxies such as alpha Centauri.

The estimation on the mass of Nemesis MN, in terms of the sun's mass M, is evaluated to be M≤ 0.042M by Bhalerao and Vahia, 2.00×10−4 ≤ MN ≤ 7.00×10−2M by Whitmire and Jackson, and 1.241×10−2 ≤ MN ≤ 7.00×10−2 M by Philippov and Chobanu, with a radius of approximately 71,492 kilometers and effective temperature between 300 and 3,000 Kelvins.[2][9][10] Its orbital period is estimated to be between 104 and 6.2×10years with a semi-major axis of 8.8×104 AU and 0.9 eccentricity.[9][10] It is also estimated that the orbital period should be exactly 2.6×107 years to a heliocentric distance between 8.8×103 and 1.672×105 AU.[2]

The Mass Extinction Scenario

With the continued explorations for Nemesis and other proposed planetary or stellar and substellar bodies, Nemesis' correlations to the mass extinction events on Earth have been challenged. Reexaminations on the fossil evidence by Adrian L. Melott and Richard K. Bambach found strong evidence for the periodicity in biodiversity to be 62 million years, with the cross-spectrum peak of extinction intensity in 99.9 million years.[11] The work of Melott and Bambach is rigorious with geological time as compared to time proper and astronomical time, and they stated that a recent sharp peak at 26.8 million years in mass extinction expressed in terms of time proper does not justify a linear retrogression analysis of the time intervals used in the Nemesis hypothesis. Radom distribution was used in their statistical tests, indicating to the subjective bias in the original Nemesis hypothesis, and the recent maximum they have tested is at 11 million years ago.[12]

References

  1. Adrian L. Melott; Richard K. Bambach; Nemesis reconsidered. Mon. Not. R. Astron. Soc. Lett.. 2010, 407, L99-L102.
  2. J. P. Philippov; M. I. Chobanu; Nemesis, Tyche, Planet Nine Hypotheses. I. Can We Detect the Bodies Using Gravitational Lensing?. Publ. Astron. Soc. Aust.. 2016, 33, e033.
  3. L. Iorio; Constraints on planet X/Nemesis from Solar System's inner dynamics. Mon. Not. R. Astron. Soc.. 2009, 400, 346-353.
  4. Why is Pluto no longer a planet?. Library of Congress. Retrieved 2024-1-12
  5. L. V. Ksanfomality; Pluto: Dwarf planet 134340. Sol. Syst. Res.. 2016, 50, 67-80.
  6. Percival Lowell; The Origin of the Planets. Memoirs Am. Acad. Arts Sci.. 1913, 14, 1.
  7. Marc Davis; Piet Hut; Richard A. Muller; Extinction of species by periodic comet showers. Nat.. 1984, 308, 715-717.
  8. Daniel P. Whitmire; Periodic mass extinctions and the Planet X model reconsidered. Mon. Not. R. Astron. Soc. Lett.. 2015, 455, L114-L117.
  9. Daniel P. Whitmire; Albert A. Jackson; Are periodic mass extinctions driven by a distant solar companion?. Nat.. 1984, 308, 713-715.
  10. Bhalerao, Varun; Vahia, M. N. Mass limit on Nemesis. Bulletin of the Astronomical Society of India. 2005, 33, 27.
  11. Adrian L. Melott; Richard K. Bambach; A ubiquitous ∼62-Myr periodic fluctuation superimposed on general trends in fossil biodiversity. II. Evolutionary dynamics associated with periodic fluctuation in marine diversity. Paleobiology. 2011, 37, 383-408.
  12. Adrian L. Melott; Richard K. Bambach; Nemesis reconsidered. Mon. Not. R. Astron. Soc. Lett.. 2010, 407, L99-L102.
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