Hostname: page-component-8448b6f56d-wq2xx Total loading time: 0 Render date: 2024-04-25T05:22:01.070Z Has data issue: false hasContentIssue false
  • English
  • Français

DIVISION F COMMISSION 22: METEORS, METEORITES, AND INTERPLANETARY DUST

Published online by Cambridge University Press:  13 April 2016

Peter Jenniskens ,
Jiří Borovička ,
Jun-ichi Watanabe ,
Tadeusz Jopek ,
Shinsuke Abe ,
Guy J. Consolmagno ,
Masateru Ishiguro ,
Diego Janches ,
Galina O. Ryabova  and
Jérémie Vaubaillon
...Show all authors
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Commission 22 (Meteors, Meteorites and Interplanetary Dust) was established at the first IAU General Assembly held in Rome in 1922, with William Frederick Denning as its first President. Denning was an accountant by profession, but as an amateur astronomer he contributed extensively to meteor science. Commission 22 thus established a pattern that has continued to this day that non-professional astronomers were welcomed and valued and could play a significant role in its affairs. The field of meteors, meteorites and interplanetary dust has played a disproportional role in the astronomical perception of the general public through the majestic displays of our annual meteor showers. Those in the field deployed many techniques uncommon in other fields of astronomy, studying the “vermin of space”, the small solid bodies that pervade interplanetary space and impact Earth's atmosphere, the surface of the Moon, and that of our satellites in orbit. Over time, the field has tackled a wide array of problems, from predicting the encounter with meteoroid streams, to the origin of our meteorites and the nature of the zodiacal cloud. Commission 22 has played an important role in organizing the field through dedicated meetings, a data centre, and working groups that developed professional-amateur relationships and that organized the nomenclature of meteor showers. The contribution of Commission 22 to the field is perhaps most readily seen in the work of the presidents that followed in the footsteps of Denning.

Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 11 , Issue T29A: Transactions IAU , August 2015 , pp. 365 - 379
Copyright
Copyright © International Astronomical Union 2016 

References

Adams, J. C., 1867, MNRAS 27 247252CrossRefGoogle Scholar
Appleton, E. V. & Naismith, R., 1947, Proc. Roy. Soc. A 59 461472CrossRefGoogle Scholar
Babadzhanov, P. B. & Obrubov, Y. Y., 1980, In: Solid particles in the Solar System Eds Halliday I McIntosh B A D. Reidel Dordrecht 157–162CrossRefGoogle Scholar
Babadzhanov, P. B. & Obrubov, Y. Y., 1983, In: Highlights in Astronomy Ed West R M D Reidel Dordrecht 411–419CrossRefGoogle Scholar
Borovička, J., Spurný, P., Brown, P., Wiegert, P., Kalenda, P., Clark, D., & Shrbený, L., 2013, Nature 503 235237Google Scholar
Brown, P. G., Revelle, D. O., Tagliaferri, E. & Hildebrand, A. R., 2002, Meteoritics & Planetary Science, 37, 661675Google Scholar
Brown, P. G., Assink, J. D., Astiz, L., et al., 2013, Nature 503, 238241Google Scholar
Brouwer, D., 1947, AJ 52 190198CrossRefGoogle Scholar
Browning, J., 1867, MNRAS 27 7779CrossRefGoogle Scholar
Cabannes, J. Dufay J. & Gauzit, J., 1935, ApJ 88 164172Google Scholar
Ceplecha, Z., 1961 Bull. Astron. Inst. Czechoslovakia 12 2147Google Scholar
Ceplecha, Z., Rajchl, J., 1965. Bull. Astron. Inst. Czechoslovakia 16 1522Google Scholar
Chladni, E. F. F., 1794, Ueber den ursprung der von Pallas gefundnen und andern ahnlichen eisenmassen, J F Hartknoch, RigaGoogle Scholar
Clegg, J. A., Hughes, V. A., Lovell, A. C. B., 1947, MNRAS 107 369378Google Scholar
Davidson, M., 1915, J. Brit. Astron. Assoc. 25, 292293Google Scholar
Denning, W. F., 1921, Nature 107 1516CrossRefGoogle Scholar
Denning, W. F., 1926, MNRAS 87 104107CrossRefGoogle Scholar
Denning, W. F., 1928, J. Brit. Astron. Assoc. 38, 302Google Scholar
Draper, J. W., 1864, A history of the intellectual development of Europe, Harper Brothers, New YorkGoogle Scholar
Ellicot, A., 1804, Trans. American Philosophical Soc. 6 2829Google Scholar
Elkin, W. J., 1899, American Jl. Of Science and Arts 8 473474Google Scholar
Ellyett, C. D., 1949, MNRAS 109 359364Google Scholar
Ellyett, C. D., Davies, J. G., 1948, Nature 161 596597CrossRefGoogle Scholar
Guth, V., 1934, the Realms of the stars, 15 (in Czech)Google Scholar
Hagihara, Y., 1972, Celestial Mechanics, MIT Cambridge MassGoogle Scholar
Halley Edmund, 1688, Phil. Trans. Roy. Soc. 16 402406Google Scholar
Halley Edmund, 1714, Phil Trans. Roy. Soc. 29 159164Google Scholar
Halliday, I., Blackwell, A. T., Griffin, A. A., 1978 JRASC 72, 1539Google Scholar
Hasegawa, I., 1993, in Meteors and their parent bodies, Eds Stohl, J., Williams, I. P. Astronomical Institute Slovak Academy of Sciences, Bratislava 209–223.Google Scholar
Hey, J. S., Stewart, G. S., 1947, Proc. Phys. Soc. 59 858883CrossRefGoogle Scholar
Herrick, E. C., 1837, American Jl Sci. and Arts 33 176180Google Scholar
Herrick, E. C., 1838, American Jl Sci. and Arts 33 354364Google Scholar
Herrick, E. C., Bradley, F., 1846, American Jl of Science and Arts 1 446447Google Scholar
Howard, E., 1802, Phil.Trans Roy Soc. 92 168212Google Scholar
Hunt, J., Williams, I. P., Fox, K., 1985, MNRAS 217 533538Google Scholar
Jenniskens, P., Butow, S. J., Fonda, M., 2000, EM&P 82 126Google Scholar
Jenniskens, P., 2006, Meteor Showers and their Parent Bodies. Cambridge University PressGoogle Scholar
Jenniskens, P., Vaubailllon, J., 2008, AJ, 136: 725730CrossRefGoogle Scholar
Jenniskens, P., 2008, Earth, Moon and Planets 102, 59Google Scholar
Jenniskens, P., Vaubaillion, J., 2010, AJ 139 18221830CrossRefGoogle Scholar
Jones, J., 1985, MNRAS 217 523532CrossRefGoogle Scholar
Jopek, T. J., Jenniskens, P, 2011, In: Meteoroids: The smallest solar system bodies. Cooke, W. J., Moser, D. E., Hardin, B. F., Janches, D., eds., NASA Marshall Space Flight Center, NASA/CP-2011-216469, p. 713Google Scholar
Kirkwood, D., 1861, Danville Quarterly Review, 1 614618Google Scholar
Kirkwood, D., 1867, Meteoric Astronomy: a treatise on Shooting Stars, Fireballs and Aerolites, J B Lippencott & Co. PhiladelphiaGoogle Scholar
LeVerrier, U. J. J., 1867, Comptes rendus 64 9499Google Scholar
Lyttleton, R. A., 1951, MNRAS 111 268277Google Scholar
Littman, M., 1998, The Heavens on Fire, Cambridge University Press.Google Scholar
Lock, J., 1834, Letter to the Cincinnati Daily Gazzette, August 11Google Scholar
Lovell, A. C. B., Banwell, C. J., Clegg, J. A., 1947 MNRAS 107 164175.CrossRefGoogle Scholar
McCrosky, R. E. and Boeschenstein, H. Jr., 1965 SAO Special Report, #173Google Scholar
McCrosky, R. E., Posen, A., Schwartz, G., Shao, C.-Y., 1971, JGR 76, 40904108Google Scholar
McKinley, D. W. R., Millman, P. M., 1949, Proc Inst Radio Eng. 37 364375Google Scholar
Millman, P. M., 1961, JRASC 55, 265267Google Scholar
Newton, H. A., 1863, American J. of Science and Arts, series 2, 36, 145149Google Scholar
Olivier, C. P., 1925, Meteors, The Williams & Wilkins Pub Co, BaltimoreGoogle Scholar
Olmstead, D., 1834, American Journal of Science and Arts 25 363411Google Scholar
Olmstead, D., 1835, American Journal of Science and Arts 26 132174Google Scholar
Öpik, E. J., 1934, Harv. Coll.Obs. Circ., 391Google Scholar
Öpik, E. J., 1940, Analysis of 1436 meteor velocities, Pub. Tartu Obs, 30, 86Google Scholar
Peters, C. F. W., 1867 Astronomische nachrichten 68 287288CrossRefGoogle Scholar
Popova, O. P., Jenniskens, P., Emel'yanenko, V., et al., 2013, Science 342, 10691073CrossRefGoogle Scholar
Porter, J. G., 1943, MNRAS 103 134153Google Scholar
Pringle, J., 1759, Phil Trans Roy. Soc. 51 259274Google Scholar
Proctor, M., Crommelin, A. C. D., 1937, Comets, their nature Origin and Place in the science of Astronomy, The Technical Press, LondonGoogle Scholar
Rittenhouse, D., 1786, Trans. American Phil. Soc. 2 173176Google Scholar
Schiaparelli, G. V., 1867a, Comptes rendus 64 598599Google Scholar
Schiaparelli, G. V., 1867b, Astronomische Nachrichten 68 331332Google Scholar
Shapley, H., Öpik, E. J., Boothroyd, S. L., 1932, Proc. Nat. Acad. Sci. 18 1623CrossRefGoogle Scholar
Štohl, J., Williams, I. P., 1993, Meteors and their Parent Bodies, Slovak Academy of SciencesGoogle Scholar
Twining, A. C., 1834, American J. Sci. and Arts 26 320352Google Scholar
Van Humbolt, A., Bonpland, A., 1852, A Personal Narrative of travels in the equinoctial regions of America during the years 1799–1804, LondonCrossRefGoogle Scholar
Vaubaillon, J., Koten, P., Margonis, A.et al., 2015, EM&P 114, 137157Google Scholar
Von Niessl, G., Hoffmeister, C., 1925, Katalog der Bestimmungsgroßen für 611 Bahnen großer Meteore, Denksch. d'Akad. d'Wiss. Wien, 10Google Scholar
Weinek, L., 1888, Astronomische Beobachtungen an der K.K.Sternwarte zu Prag, in den Jahren 1885, 1886, und 1887Google Scholar
Weiss, E., 1867, Astronomische Nachrichten 68 381384Google Scholar
Weiss, E., 1868, Astronomische Nachrichten 72 81102Google Scholar
Whipple, F. L., 1938, Proc. Am. Phil. Soc. 79 499548Google Scholar
Whipple, F. L., 1940, Proc. Am. Phil. Soc. 82 275290Google Scholar
Whipple, F. L., 1950, Ap. J 111 375394CrossRefGoogle Scholar
Whipple, F. L., 1951, Ap. J 113 464474CrossRefGoogle Scholar
Whipple, F. L., Hamid, S. E., 1950, AJ 55 185186Google Scholar
Williams, I. P., 2002, The evolution of meteoroid streams, in Meteors in the Earth's Atmosphere, Murad E Williams I. P., eds., Cambridge Univ. Press, Cambridge, 1332Google Scholar
Williams, I. P., 2004, JIMO 32 1120Google Scholar
Williams, I. P., 2011, A&G 52 2.20–2.26Google Scholar
Williams, I. P., Murray, C. D., Hughes, D. W., 1979, MNRAS 189 483492Google Scholar