Abstract
Meteors are streaks of light seen in the upper atmosphere when particles from the inter-planetary dust complex collide with the Earth. Meteor showers originate from the impact of a coherent stream of such dust particles, generally assumed to have been recently ejected from a parent comet. The parent comets of these dust particles, or meteoroids, fortunately, for us tend not to collide with the Earth. Hence there has been orbital changes from one to the other so as to cause a relative movement of the nodes of the meteor orbits and that of the comet, implying changes in the energy and/or angular momentum. In this review, we will discuss these changes and their causes and through this place limits on the ejection process. Other forces also come into play in the longer term, for example perturbations from the planets, and the effects of radiation pressure and Poynting–Robertson drag. The effect of these will also be discussed with a view to understanding both the observed evolution in some meteor streams. Finally we will consider the final fate of meteor streams as contributors to the interplanetary dust complex.
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References
Adams, J. C.: 1867, ‘On the orbit of the November meteors’, Mon. Not. R. Astr. Soc. 27, 247-252.
Arter, T. R. and Williams, I. P.: 1997, ‘Periodic behaviour of the April Lyrids’, Mon. Not. R. Astr. Soc. 286, 163-172.
Asher, D., Clube, S. V. M. and Steel, D. I.: 1993, ‘The Taurid complex asteroids’, In: J. Stohl and I. P. Williams (eds), Meteoroids and their Parent Bodies, Slovak Academy of Sciences, Bratislava, pp. 93-96.
Asher, D., Bailey, M. E and Emel'yanenko, V. V.: 1999, ‘Resonant meteoroids from comet Temple-Tuttle in 1333: the cause of the unexpected Leonid outburst in 1998’, Mon. Not. R. Astr. Soc. 304, L53-57.
Babadzhanov, P. B. and Obrubov, Y. Y.: 1980, ‘Evolution of orbits and intersection conditions with the Earth of Geminid and Quadrantid meteor Streams’, In: I. Halliday and B. A. McIntosh (eds), Solid Particles in the Solar System, D. Reidel, Dordrecht, pp. 157-162.
Babadzhanov, P. B. and Obrubov, Y. Y.: 1983, ‘Some features of evolution of meteor streams’, In: R. M. West (ed.), Highlights in Astronomy, D. Reidel, Dordrecht, pp. 411-419.
Benzenberg, J. F. and Brandes, H. W.: 1800'Versuch die entfernung, die geschwindigkeit und die bahn der sternschnuppen zu bestimmen’, Annal. Phys. 6, 224-232.
Betlem, H., Kuile, C. R., Ligne, M., van't Leven, J., Jobse, K., Miskotte, K. and Jenniskens, P.: 1997, ‘Precission meteor orbits obtained by the Dutch Meteor Society-photographic meteor survey (1981-1993)’, Astron. Astrophys. Suppl. Ser. 128, 179-185
Brouwer, D.: 1947, Astron.Jl. 52, 190.
Brown, P. and Jones, J.: 1996, ‘Dynamics of the Leonid meteoroid stream: a numerical approach’, In: B. A. S. Gustafson and M. S. Hanner (eds), Physics, Chemistry and Dynamics of Interplanetary Dust, ASP Conf. Ser pp. 113-116.
Brown, P. and Rendtel, J.: 1996, ‘The Perseid meteoroid stream: characterization of recent activity from visual observations’, Icarus 124, 414-428.
Cook, A. F.: 1973, ‘A working list of meteor streams, In: C. L. Hemenway, P. M. Millman and A. F. Cook (eds), Evolutionary and Physical Properties of Meteoroids, NASA SP-319, Washington DC, pp. 183-191.
Drummond, J.D.: 1981, ‘A test of comet and meteor shower associations, Icarus 45, 545-553.
Fox, K., Williams, I. P. and Hughes, D. W.: 1983, ‘The rate profile of the Geminid meteor shower’, Mon. Not. R. Astr. Soc. 205, 1155-1169.
Gustafson, B. °A. S.: 1989a, ‘Comet ejection and dynamics of nonspherical dust particles and meteoroids’, Astrophys. Jl. 337, 945-949.
Gustafson, B. Å S.: 1989b, ‘Geminid meteoroids traced tocometary activity on Phaethon’, Astron. Astrophys. 225, 533-540.
Hamid, S. E. and Youssef, M. N.: 1963, ‘A short note on the origin and age of the quadrantids’, Smith. Cont. Astrophys. 7, 309-311.
Hasegawa I.: 1993, ‘Historical records of meteor showers, In: J. Stohl and I. P. Williams (eds), Meteoroids and their Parent Bodies, Slovak Academy of Sciences, Bratislava, pp. 209-223.
Harris, N.W. and Hughes, D.W.: 1995, ‘Perseid meteors-the relationship between mass and orbital semi-major axis, Mon. Not. R. Astr. Soc. 273, 992-998.
Herrick, E. C.: 1837, ‘On the shooting stars of August 9th and 10th, 1837, and on the probability of the annual occurrence of a meteoric shower in August’, Amer. Jl. Sci. 33, 176-180.
Herrick, E. C.: 1838, ‘Further proof of an annual meteoric shower in August, with remarks on shooting stars in general’, Amer. Jl. Sci. 33, 354-364.
Hughes, D. W. and McBride, N.: 1989, ‘The mass of meteoroid streams’, Mon. Not. R. Astr. Soc. 240, 73-79.
Hughes, D. W., Williams, I. P. and Fox, K.: 1981, ‘The mass segregarion and nodal retrogression of the Quadrantid meteor stream’, Mon. Not. R. Astr. Soc. 195, 625-637.
Hunt, J., Williams, I. P. and Fox, K.: 1985, ‘Planetery perturbations on the Geminid meteor stream’, Mon. Not. R. Astr. Soc. 217, 533-538.
Jenniskens, P.: 1994, ‘Meteor stream activity I. The annual streams’, Astron. Astrophys. 287, 990-1013.
Jenniskens, P. and van Leeuwen, G. D.: 1997, ‘The α-Monocerotid meteor outburst: the cross section of a comet dust trail’, Planet.Space Sci. 45, 1649-1652.
Jones, J. and McIntosh, B. A.: 1986, ‘On the structure of the Halley comet meteor stream’, In: Exploration of Comet Halley, ESA-SP 250, Paris, pp. 233-243.
Jopek, T. J.: 1993, ‘Remarks on the meteor orbital similarity D-criterion’, Icarus 106, 603-607.
Kres´ak, L.: 1974, Bull. Astron. Inst. Czechos. 13, 176.
Le Verrier, U. J. J.: 1867, ‘Sur les etoiles filantes de 13 Novembre et du 10 Aout’, Comp. Rend. 64, 94-99.
Lindblad, B. A. and Porubcan, V.: 1992, ‘Activity of the Lyrid meteoroid stream’, In: A. W. Harris and E. Bowell (eds), Asteroids Comets Meteors 91, Lunar and Planetary Institute, Tucson, pp. 367-370.
Lindblad, B. A. and Steel, D. I.: 1994, ‘Meteoroid orbits available from the IAU meteor data center’, In: A. Milani, M. DiMartino and A. Cellino (eds), Asteroids, Comets, Meteors 1993, Kluwer, Dordrecht, pp. 497-501.
Lovell, A. C. B.: 1954, Meteor Astronomy, O.U.P., New York.
Ma, Y., He, Y. and Williams I. P.: 2001, ‘A micrometeor component of the 1998 Leonid shower’, Mon. Not. R. Astr. Soc. 325, 457-462.
Olmstead, D.: 1834, ‘Observations on the meteors of 13 Nov.1833’, Amer. Jl. Sci. 25, 354-411.
Plavec, M.: 1950, Nature 165, 362.
Poynting, J. H.: 1903, ‘Radiation in the solar system: its effect on temperature and its pressure on small bodies’, Proc. R. Soc. London 72, 265-267.
Robertson, H.P.: 1937, ‘Dynamical effects of radiation in the solar system’, Mon. Not. R. Astr. Soc. 97, 423-438.
Schiaparelli, G. V.: 1867‘sur la relation qui existe entre les cometes et les etoiles filantes’, Astron. Nach. 68, 331-332.
Steel, D. S. and Asher, D. J.: 1996, In: B. Å. S Gustafson and M. S. Hanner (eds), Physics, Chemistry and Dynamics of Interplanetary Dust, Pub. Astron. Soc Pacific Conference Series, 125.
Štohl, J. and PorubČan V.: 1993, ‘Meteor streams of asteroidal origin’, In: J. Štohl and I. P. Williams (eds), Meteoroids and their Parent Bodies, Slovak. Acad. Sci., Bratislava, 41.
Southworth, R. B., and Hawkins, G. S.: 1963, ‘Statistics of meteor streams’, Smith. Cont. Astrophys. 7, 261-285.
Twining, A. C.: 1834, ‘Investigations respecting the meteors of Nov. 13th, 1833’, Amer. Jl. Sci. 26, 320-352.
Whipple, F. L.: 1950, ‘A comet model 1: the acceleration of comet Encke'. Astrophys. Jl. 111, 375.
Whipple, F. L.: 1951, ‘A comet model II. Physical relations for comets and meteors’, Astrophys. Jl. 113, 464-474.
Whipple, F. L. and Hamid, S. E.: 1950, Sky Teles. 9, 248.
Williams, I. P.: 1983, ‘Physical processes affecting the motion of small bodies in the Solar System and their application to the evolution of meteor streams’, In: V. V. Markellos and Y. Kozai (eds), Dynamical Trapping and Evolution in the Solar System, D. Reidel, pp. 83-87.
Williams, I. P.: 1995, ‘Meteoroid Stream dynamics’, In: A. E. Roy and B. A. Steves (eds), From Newton to Chaos, Plenium Press, New York, pp. 199-208.
Williams, I. P. and Wu, Z.: 1994, ‘The current Perseid meteor shower’, Mon. Not. R. Astr. Soc. 269, 524-528
Williams, I. P., Hughes, D. W., McBride, N and Wu, Z.: 1993, ‘Collision between the nucleus of comet Halley and dust from its own stream’, Mon. Not. R. Astr. Soc. 260, 43-48.
Wu, Z. and Williams, I. P.: 1995, ‘P/Giacobini-Zinner and the Draconid meteor shower’, Plan. Sp. Sci. 43, 723-731.
Wu, Z. and Williams, I. P.: 1996, ‘Leonid meteor storms’, Mon. Not. R. Astr. Soc. 264, 980-990
Wyatt, S. P. and Whipple, F. L.: 1950, ‘The Poyntin-Robertson effect on meteor orbits’, Astrophys. Jl. 111, 134-141.
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Williams, I.P. The Dynamics of Meteoroid streams. Celestial Mechanics and Dynamical Astronomy 81, 103–113 (2001). https://doi.org/10.1023/A:1013367322286
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DOI: https://doi.org/10.1023/A:1013367322286