Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-29T16:58:31.800Z Has data issue: false hasContentIssue false
  • English
  • Français

Cometary Activity, Discrete Outgassing Areas, and Dust-Jet Formation

Published online by Cambridge University Press:  12 April 2016

Z. Sekanina
Z. Sekanina*
Affiliation:
Jet Propulsion LaboratoryCalifornia Institute of Technology4800 Oak Grove DrivePasadena, California 91109U.S.A.

Abstract.

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.

Major progress has recently been achieved in the understanding of the coma morphology of dust comets. The conceptual models for the various types of feature observed in the coma (jets, spirals, halos, fans, etc.), their computer simulation, and the hydrodynamic models for jet formation are critically reviewed, and evidence for anisotropic, strongly collimated flows of ejecta emanating from discrete active regions (vents) on the rotating cometary nuclei is presented. The techniques employed to generate synthetic comet images that simulate the observed features are described and their relevance to the primary objectives of coma-morphology studies is exemplified. Modelling of temporal variations in the water emission from discrete active regions suggests that production curves asymmetric with respect to perihelion should be commonplace. Critical comparisons are offered with the activity profiles of Encke’s comet and with light curves of disappearing comets and comets that undergo outbursts. Discussed next is the potential evolutionary significance of nuclear shape, the fractional area of the surface that is active, the vents’ erosion rate, and available information on their activation, aging, dormancy, migration, rejuvenation, and extinction. Recent developments in the understanding of the processes that cause the nongravitational perturbations of cometary motions are reviewed and the observed discontinuities are identified with birth of new sources and/or deactivation of old vents.

Type
Section IV: The Cometary Nucleus
Information
International Astronomical Union Colloquium , Volume 116 , Issue 2: Comets in the Post-Halley Era , 1991 , pp. 769 - 823
Copyright
Copyright © Kluwer 1991

References

A’Hearn, M.F. (1988) ‘Observations of cometary nuclei’, Ann. Rev. Earth Planet. Sci. 16, 272293.Google Scholar
A’Hearn, M.F., Birch, P.V., Feldman, P.D., and Millis, R.L. (1985) ‘Comet Encke: Gas production and lightcurve’, Icarus 64, 110.Google Scholar
A’Hearn, M.F., Campins, H., Schleicher, D.G., and Millis, R.L. (1989) ‘The nucleus of comet P/Tempel 2’, Astrophys. J. 347, 11551166.Google Scholar
A’Hearn, M.F., Hoban, S., Birch, P.V., Bowers, C., Martin, R., and Klinglesmith, D.A. (1986a) ‘CN jets in comet P/Halley’, Nature 324, 649651.Google Scholar
A’Hearn, M.F., Hoban, S., Birch, P.V., Bowers, C., Martin, R., and Klinglesmith, D.A. (1986b) ‘Gaseous jets in comet P/Halley’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 1, pp. 483486.Google Scholar
A’Hearn, M.F., Millis, R.L., and Thompson, D.T. (1983) ‘The disappearance of OH from comet P/Encke’, Icarus 55, 250258.Google Scholar
A’Hearn, M.F., and Schleicher, D.G. (1988) ‘Comet P/Encke’s nongravitational force’, Astrophys. J. 331, L47L51.CrossRefGoogle Scholar
Bertaux, J.L., Blamont, J.E., and Festou, M.C. (1973) ‘Interpretation of hydrogen Lymanalpha observations of comets Bennett and Encke’, Astron. Astrophys. 25, 415430.Google Scholar
Beisser, K., and Boehnhardt, H. (1987) ‘Evidence for the nucleus rotation in streamer patterns of comet Halley’s dust tail’, Astrophys. Space Sci. 139, 512.CrossRefGoogle Scholar
Bessel, F.W. (1836a) ‘Beobachtungen über die physische Beschaffenheit des Halleyschen Kometen und dadurch veranlasste Bemerkungen’, Astron. Nachr. 13, 185232.Google Scholar
Bessel, F.W. (1836b) ‘Bemerkungen über mögliche Unzulänglichkeit der die Anziehungen allein berücksichtigenden Theorie der Kometen’, Astron. Nachr. 13, 345350.Google Scholar
Beyer, M. (1962) ‘Physische Beobachtungen von Kometen. XII’, Astron. Nachr. 286, 219240.Google Scholar
Bobrovnikoff, N.T. (1931) ‘Halley’s comet in its apparition of 1909–1911’, Publ. Lick Obs. 17, 305482.Google Scholar
Bobrovnikoff, N.T. (1954) ‘Physical properties of comets’, Astron. J. 59, 357358.Google Scholar
Bockelée-Morvan, D., Crovisier, J., Gerard, E., and Kazès, I. (1981) ‘Observations of the OH radical in comets at 18 cm wavelength’, Icarus 47, 464469.Google Scholar
Bockelée-Morvan, D., and Gerard, E. (1984) ‘Radio observations of the hydroxyl radical in comets with high spectral resolution. Kinematics and asymmetries of the OH coma in C/Meier (1978 XXI), C/Bradfield (1979 X), and C/Austin (1982g)’, Astron. Astrophys. 131, 111122.Google Scholar
Boice, D.C., Huebner, W.F., Reitsema, H.J., and Delamere, W.A. (1988) ‘A model of the near-nucleus dust distribution of comet P/Halley: The effects of spacecraft viewing geometry and surface curvature’, Bull. Am. Astron. Soc. 20, 826. (Abstract.)Google Scholar
Bond, G.P. (1862) ‘Account of the great comet of 1858’, Ann. Harvard Coll. Obs. 3, 1372.Google Scholar
Brin, G.D. (1980) ‘Three models of dust layers on cometary nuclei’, Astrophys. J. 237, 265279.Google Scholar
Brin, G.D., and Mendis, D.A. (1979) ‘Dust release and mantle development in comets’, Astrophys. J. 229, 402408.Google Scholar
Campbell, D.B., Harmon, J.K., and Shapiro, I.I. (1989) ‘Radar observations of comet Halley’, Astrophys. J. 338, 10941105.CrossRefGoogle Scholar
Campins, H. (1988) ‘The anomalous dust production in periodic comet Encke’, Icarus 73, 580587.Google Scholar
Campins, H., A’Hearn, M.F., and McFadden, L.-A. (1987) ‘The bare nucleus of comet Neujmin 1’, Astrophys. J. 316, 847857.Google Scholar
Campins, H., Joy, M., Harvey, P.M., Lester, D.F., and Ellis, H.B. Jr. (1987a) ‘Photometry of comet P/Halley from 40 to 160 microns’, Astron. Astrophys. 187, 632634.Google Scholar
Campins, H., Telesco, C.M., Decher, R., and Ramsey, B.D. (1987b) ‘Thermal infrared imaging of comet P/Halley’, Astron. Astrophys. 187, 601604.Google Scholar
Carey, W.C., McDonnell, J.A.M., Welch, C.S., and Zarnecki, J.C. (1984) ‘Heterogeneous grain morphologies and acceleration mechanisms in cometary coma dust dynamics: Mass envelope dispersion’, Adv. Space Res. 4, No. 9, pp. 217220.Google Scholar
Ceplecha, Z. (1986) ‘Photographic fireball networks’, in Lagerkvist, C.-I., Lindblad, B.A., Lundstedt, H., and Rickman, H. (eds.), Asteroids, Comets, Meteors II, University of Uppsala, Uppsala, pp. 575582.Google Scholar
Chakaveh, S.C., Green, S.F., Ridley, J.K., McDonnell, J.A.M., and Hughes, D.W. (1986) ‘Computer modelling of dust from comet P/Halley and comparison with ground-based observations and in situ measurements’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 2, pp. 163165.Google Scholar
Chofardet, P. (1923) ‘Observations de planètes et de la comète Tempel II (1920a)’, Astron. J. 34, 3336.CrossRefGoogle Scholar
Cochran, A.L., Barker, E.S., and Cochran, W.D. (1980) ‘Spectrophotometric observations of P/Schwassmann-Wachmann 1 during outburst’, Astron. J. 85, 474477.Google Scholar
Cochran, A.L., Cochran, W.D., and Barker, E.S. (1982) ‘Spectrophotometry of comet Schwassmann-Wachmann 1. II. Its color and CO+ emission’, Astrophys. J. 254, 816822.Google Scholar
Colwell, J.E., and Jakosky, B.M. (1987) ‘The evolution of topography on a comet’, Icarus 72, 128134.Google Scholar
Combi, M.R. (1987) ‘Sources of cometary radicals and their jets: Gases or grains’, Icarus 71, 178191.Google Scholar
Combi, M.R., Stewart, A.I.F., and Smyth, W.H. (1984) ‘An analysis of Pioneer Venus hydrogen Lyman-α observations of comet P/Encke’, Bull. Am. Astron. Soc. 16, 638. (Abstract.)Google Scholar
Cordes, J., Falchi, A., Tofani, G., Lewis, B.M., and Terzian, Y. (1986) ‘Radio OH observation of Halley’s comet’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 3, pp. 113115.Google Scholar
Cosmovici, C.B., Green, S.F., Hughes, D.W., Keller, H.U., Mack, P., Moreno-Insertis, F., and Schmidt, H.U. (1986) ‘Groundbased CCD observations of comet Halley with the Giotto HMC filters’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 2, pp. 375379.Google Scholar
Cosmovici, C.B., Mack, P., Schwarz, G., Craubner, A., and Ip, W.-H. (1987) ‘CCD observations of gas and dust jets in the coma of comet Halley’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 195207.Google Scholar
Cosmovici, C.B., Schwarz, G., Ip, W.-H., and Mack, P. (1988) ‘Gas and dust jets in the inner coma of comet Halley’, Nature 332, 705709.Google Scholar
Cowan, J.J., and A’Hearn, M.F. (1979) ‘Vaporization of comet nuclei: Light curves and lifetimes’, Moon Planets 21, 155171.Google Scholar
Crifo, J.F. (1988) ‘Cometary dust sizing: Comparison between optical and in situ sampling techniques’, Part. Charact. 5, 3846.Google Scholar
Crovisier, J. (1984) ‘The water molecule in comets: Fluorescence mechanisms and thermodynamics of the inner coma’, Astron. Astrophys. 130, 361372.Google Scholar
Daniels, P.A., and Hughes, D.W. (1981) ‘The accretion of cosmic dust—a computer simulation’, Mon. Not. R. Astron. Soc. 195, 10011009.Google Scholar
Delsemme, A.H. (1982) ‘Chemical composition of cometary nuclei’, in Wilkening, L.L. (ed.), Comets, University of Arizona, Tucson, pp. 85130.Google Scholar
Delsemme, A.H., and Rud, D.A. (1973) ‘Albedos and cross-sections of the nuclei of comets 1969 IX, 1970 II, and 1971 II’, Astron. Astrophys. 28, 16.Google Scholar
de Pater, I., Palmer, P., and Snyder, L.E. (1986) ‘The brightness distribution of OH around comet Halley’, Astrophys. J. 304, L33-L36.Google Scholar
de Pater, I., Palmer, P., Snyder, L.E., and Ip, W.-H. (1986) ‘VLA observations of comet Halley: The brightness distribution of OH around the comet’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 1, pp. 409412.Google Scholar
Divine, N., and Newburn, R.L. Jr. (1983) ‘Numerical models for cometary dust environments’, in Gombosi, T.I. (ed.), Cometary Exploration, Hungarian Academy of Sciences, Budapest, vol. 2, pp. 8198.Google Scholar
Djorgovski, S., and Spinrad, H. (1985) ‘Surface photometry of comet P/Encke’, Astron. J. 90, 869876.Google Scholar
Donn, B. (1963) ‘The origin and structure of icy cometary nuclei’, Icarus 2, 396402.Google Scholar
Donn, B. (1976) ‘The nucleus: Panel discussion’, in Donn, B., Mumma, M., Jackson, W., A’Hearn, M., and Harrington, R. (eds.), The Study of Comets, NASA SP-393, U.S. GPO, Washington, D.C., pp. 611619.Google Scholar
Donn, B., Daniels, P.A., and Hughes, D.W. (1985) ‘On the structure of the cometary nucleus’, Bull. Am. Astron. Soc. 17, 520. (Abstract.)Google Scholar
Donn, B., and Hughes, D.W. (1986) ‘A fractal model of a cometary nucleus formed by random accretion’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 3, pp. 523524.Google Scholar
Donn, B., and Urey, H.C. (1956) ‘On the mechanism of comet outbursts and the chemical composition of comets’, Astrophys. J. 123, 339342.Google Scholar
Dubiago, A.D. (1948) ‘On the secular acceleration of motions of periodic comets’, Astron. J. USSR 25, 361368. (In Russian.)Google Scholar
Edenhofer, P., Bird, M.K., Brenkle, J.P., Buschert, H., Kursinski, E.R., Mottinger, N.A., Porsche, H., Stelzried, C.T., and Volland, H. (1987) ‘Dust distribution of comet P/Halley’s inner coma determined from the Giotto Radio-Science Experiment’, Astron. Astrophys. 187, 712718.Google Scholar
Fanale, F.P., and Salvail, J.R. (1984) ‘An idealized short-period comet model: Surface insolation, H2O flux, dust flux, and mantle evolution’, Icarus 60, 476511.Google Scholar
Fanale, F.P., and Salvail, J.R. (1986) ‘A model of cometary gas and dust production and nongravitational forces with application to P/Halley’, Icarus 66, 154164.Google Scholar
Feldman, P.D., A’Hearn, M.F., Festou, M.C., McFadden, L.A., Weaver, H.A., and Woods, T.N. (1986) ‘Is CO2 responsible for the outbursts of comet Halley?’, Nature 324, 433436.Google Scholar
Feldman, P.D., A’Hearn, M.F., and Millis, R.L. (1984) ‘Temporal and spatial behavior of the ultraviolet emissions of comet IRAS-Araki-Alcock 1983d’, Astrophys. J. 282, 799802.Google Scholar
Feldman, P.D., Festou, M.C., A’Hearn, M.F., Arpigny, C., Butterworth, P.S., Cosmovici, C.B., Danks, A.C., Gilmozzi, R., Jackson, W.M., McFadden, L.A., Patriarchi, P., Schleicher, D.G., Tozzi, G.P., Wallis, M.K., Weaver, H.A., and Woods, T.N. (1987) ‘IUE observations of comet P/Halley: Evolution of the ultraviolet spectrum between September 1985 and July 1986’, Astron. Astrophys. 187, 325328.Google Scholar
Feldman, P.D., Weaver, H.A., and Festou, M.C. (1984) ‘The ultraviolet spectrum of periodic comet Encke (1980 XI)’, Icarus 60, 455463.Google Scholar
Fertig, J., and Schwehm, G.H. (1984) ‘Dust environment models for comet P/Halley: Support for targeting of the Giotto S/C’, Adv. Space Res. 4, No. 9, pp. 213216.Google Scholar
Festou, M.C., Feldman, P.D., A’Hearn, M.F., Arpigny, C., Cosmovici, C.B., Danks, A.C., McFadden, L.A., Gilmozzi, R., Patriarchi, P., Tozzi, G.P., Wallis, M.K., and Weaver, H.A. (1986) ‘IUE observations of comet Halley during the VEGA and Giotto encounters’, Nature 321, 361363.Google Scholar
Finson, M.L., and Probstein, R.F. (1968) ‘A theory of dust comets. I. Model and equations’, Astrophys. J. 154, 327352.CrossRefGoogle Scholar
Froeschlé, C., and Rickman, H. (1986) ‘Model calculations of nongravitational forces on short-period comets. I. Low-obliquity case’, Astron. Astrophys. 170, 145160.Google Scholar
Gehrz, R.D., and Ney, E.P. (1986) ‘Infrared temporal development of P/Halley’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 2, pp. 101105.Google Scholar
Goldstein, R.M., Jurgens, R.F., and Sekanina, Z. (1984) ‘A radar study of comet IRAS-Araki-Alcock 1983d’, Astron. J. 89, 17451754.Google Scholar
Gombosi, T.I., and Horányi, M. (1986a) ‘Modeling of dust halo formation following comet outbursts: Preliminary results’, Geophys. Res. Lett. 13, 299301.Google Scholar
Gombosi, T.I., and Horányi, M. (1986b) ‘Time-dependent numerical modeling of dust halo formation at comets’, Astrophys. J. 311, 491500.Google Scholar
Gombosi, T.I., and Houpis, H.L.F. (1986) ‘An icy-glue model of cometary nuclei’, Nature 324, 4344.Google Scholar
Greenberg, J.M. (1986) ‘Fluffy comets’, in Lagerkvist, C.-I., Lindblad, B.A., Lundstedt, H., and Rickman, H. (eds.), Asteroids, Comets, Meteors II, University of Uppsala, Uppsala, pp. 221223.Google Scholar
Greenstein, J.L. (1958) ‘High-resolution spectra of comet Mrkos (1957d)’, Astrophys. J. 128, 106113.Google Scholar
Grün, E., Benkhoff, J., Fechtig, H., Hesselbarth, P., Klinger, J., Kochan, H., Kohl, H., Krankowsky, D., Lämmerzahl, P., Seboldt, W., Spohn, T., and Thiel, K. (1989) ‘Mechanisms of dust emission from the surface of a cometary nucleus’, Adv. Space Res. 9, No. 3, pp. 133137.Google Scholar
Grün, E., Graser, U., Kohoutek, L., Thiele, U., Massonne, L., and Schwehm, G. (1986) ‘Structures in the coma of comet Halley’, Nature 321, 144147.Google Scholar
Grün, E., Kochan, H., Roessler, K., and Stöffler, D. (1987) ‘Simulation of cometary nuclei’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 501508.Google Scholar
Grün, E., Massonne, L., and Schwehm, G. (1987) ‘New properties of cometary dust’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 305314.Google Scholar
Hanner, M.S., Aitken, D.K., Knacke, R., McCorkle, S., Roche, P.F., and Tokunaga, A.T. (1985) ‘Infrared spectrophotometry of comet IRAS-Araki-Alcock (1983d): A bare nucleus revealed?’, Icarus 62, 97109.Google Scholar
Hanner, M.S., and Newburn, R.L. Jr. (1989) ‘Infrared photometry of comet Wilson (1986l) at two epochs’, Astron. J. 97, 254261.Google Scholar
Hanner, M.S., Newburn, R.L. Jr., Spinrad, H., and Veeder, G.J. (1987a) ‘Comet Sugano-Saigusa-Fujikawa (1983 V)—a small, puzzling comet’, Astron. J. 94, 10811087.Google Scholar
Hanner, M.S., Tokunaga, A.T., Golisch, W.F., Griep, D.M., and Kaminski, C.D. (1987b) ‘Infrared emission from P/Halley’s dust coma during March 1986’, Astron. Astrophys. 187, 653660.Google Scholar
Harmon, J.K., Campbell, D.B., Hine, A.A., Shapiro, I.I., and Marsden, B.G. (1989) ‘Radar observations of comet IRAS-Araki-Alcock 1983d’, Astrophys. J. 338, 10711093.Google Scholar
Hartmann, W.K., and Cruikshank, D.P. (1984) ‘Comet color changes with solar distance’, Icarus 57, 5562.Google Scholar
Hartmann, W.K., Cruikshank, D.P., and Degewij, J. (1982) ‘Remote comets and related bodies: VJHK colorimetry and surface materials’, Icarus 52, 377408.Google Scholar
Hartmann, W.K., Tholen, D.J., and Cruikshank, D.P. (1987) ‘The relationship of active comets, “extinct” comets, and dark asteroids’, Icarus 69, 3350.Google Scholar
Harwit, M. (1968) ‘“Spontaneously” split comets’, Astrophys. J. 151, 789790.Google Scholar
Hevelius, J. (1682) ‘Excerpta ex epistola. II. De cometa anno 1682 mense Augusto & Septimbri viso’, Acta Erudit., Dec. 1682, pp. 389391.Google Scholar
Hoban, S., A’Hearn, M.F., Birch, P.V., and Martin, R. (1989) ‘Spatial structure in the color of the dust coma of comet P/Halley’, Icarus 79, 145158.Google Scholar
Hoban, S., Samarasinha, N.H., A’Hearn, M.F., and Klinglesmith, D.A. (1988) ‘An investigation into periodicities in the morphology of CN jets in comet P/Halley’, Astron. Astrophys. 195, 331337.Google Scholar
Yoke, Ho Peng (1962) ‘Ancient and mediaeval observations of comets and novae in Chinese sources’, Vistas Astron. 5, 127225.Google Scholar
Horányi, M., and Mendis, D.A. (1985) “Trajectories of charged dust grains in the cometary environment’, Astrophys. J. 294, 357368.Google Scholar
Horányi, M., and Mendis, D.A. (1986) ‘The effects of electrostatic charging on the dust distribution at Halley’s comet’, Astrophys. J. 307, 800807.Google Scholar
Huebner, W.F. (1975) ‘On the structure of the nucleus of comet Kohoutek (1973f)’, in Gary, G.A. (ed.), Comet Kohoutek, NASA SP-355, U.S. GPO, Washington, D.C., pp. 145151.Google Scholar
Huebner, W.F., Boice, D.C., Reitsema, H.J., and Delamere, W.A. (1988) ‘A model for intensity profiles of dust jets near the nucleus of comet Halley’, Icarus 76, 7888.Google Scholar
Huebner, W.F., Keller, H.U., Wilhelm, K., Whipple, F.L., Delamere, W.A., Reitsema, H.J., and Schmidt, H.U. (1986) ‘Dust-gas interaction deduced from Halley Multicolor Camera observations’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 2, pp. 363364.Google Scholar
Ibadinov, Kh.I. (1989) ‘Laboratory investigation of the sublimation of comet nucleus models’, Adv. Space Res. 9, No. 3, pp. 97112.Google Scholar
Ibadinov, Kh.I., Aliev, S.A., and Rahmonov, A.A. (1987) ‘Physical-mechanical properties of matrices on the comet nuclei surface models’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 713716.Google Scholar
Ip, W.-H., Cosmovici, C.B., Mack, P., Craubner, H., and Schwarz, G. (1987) ‘Dust coma morphology of comet Halley during the Giotto encounter’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 271275.Google Scholar
Ip, W.-H., and Rickman, H. (1986) ‘A comparison of nucleus surface models to space observations of comet Halley’, in Melita, O. (ed.), Comet Nucleus Sample Return, ESA SP-249, ESTEC, Noordwijk, pp. 181184.Google Scholar
Jeffers, H.M. (1946) ‘Comet notes’, Publ. Astron. Soc. Pacific 58, 6061.Google Scholar
Jewitt, D.C. (1990) ‘The persistent coma of comet P/Schwassmann-Wachmann 1’, Astrophys. J., in press.Google Scholar
Jewitt, D.C., and Luu, J. (1989) ‘A CCD portrait of comet P/Tempel 2’, Astron. J. 97, 17661790, 18401841.Google Scholar
Jewitt, D.C., and Meech, K.J. (1986) ‘Cometary grain scattering versus wavelength, or, “What color is comet dust?’, Astrophys. J. 310, 937952.Google Scholar
Jewitt, D.C., and Meech, K.J. (1987) ‘CCD photometry of comet P/Encke’, Astron. J. 93, 15421548.Google Scholar
Jewitt, D.C., and Meech, K.J. (1988a) ‘The absence of a color-distance trend in comets’, Astron. J. 96, 17231730.Google Scholar
Jewitt, D.C., and Meech, K.J. (1988b) ‘Optical properties of cometary nuclei and a preliminary comparison with asteroids’, Astrophys. J. 328, 974986.Google Scholar
Johnson, R.E., Cooper, J.F., Lanzerotti, L.J., and Strazzulla, G. (1987) ‘Radiation formation of a non-volatile comet crust’, Astron. Astrophys. 187, 889892.Google Scholar
Jones, A.F. (1985) ‘Periodic comet Encke (1961 I = 1974 V = 1977 XI)’, Int. Comet Q. 7, 98.Google Scholar
Kamél, L. (1989) ‘The secular evolution of P/Encke’s light curve: No fading, no perihelion asymmetry?’, Icarus, submitted.Google Scholar
Kamoun, P.D., Campbell, D.B., Ostro, S.J., Pettengill, G.H., and Shapiro, I.I. (1982) ‘Comet Encke: Radar detection of nucleus’, Science 216, 293296.Google Scholar
Kaneda, E., Ashihara, O., Shimizu, M., Takagi, M., and Hirao, K. (1986) ‘Observation of comet Halley by the ultraviolet imager of Suisei’, Nature 321, 297299.Google Scholar
Keller, H.U., Arpigny, C., Barbieri, C., Bonnet, R.M., Cazes, S., Coradini, M., Cosmovici, C.B., Delamere, W.A., Huebner, W.F., Hughes, D.W., Jamar, C., Malaise, D., Reitsema, H.J., Schmidt, H.U., Schmidt, W.K.H., Seige, P., Whipple, F.L., and Wilhelm, K. (1986) ‘First Halley Multicolour Camera imaging results from Giotto’, Nature 321, 320326.Google Scholar
Keller, H.U., Delamere, W.A., Huebner, W.F., Reitsema, H.J., Schmidt, H.U., Whipple, F.L., Wilhelm, K., Curdt, W., Kramm, R., Thomas, N., Arpigny, C., Barbieri, C., Bonnet, R.M., Cazes, S., Coradini, M., Cosmovici, C.B., Hughes, D.W., Jamar, C., Malaise, D., Schmidt, K., Schmidt, W.K.H., and Seige, P. (1987) ‘Comet P/Halley’s nucleus and its activity’, Astron. Astrophys. 187, 807823.Google Scholar
Kitamura, Y. (1986) ‘Axisymmetric dusty gas jet in the inner coma of a comet’, Icarus 66, 241257.CrossRefGoogle Scholar
Kitamura, Y. (1987) ‘Axisymmetric dusty gas jet in the inner coma of a comet. II. The case of isolated jets’, Icarus 72, 555567.Google Scholar
Klinger, J. (1983) ‘Modelling of cometary nuclei’, in Lagerkvist, C.-I. and Rickman, H. (eds.), Asteroids, Comets, Meteors, University of Uppsala, Uppsala, pp. 205213.Google Scholar
Klinger, J. (1986) ‘Possible alterations of matter in periodic comets’, in Melita, O. (ed.), Comet Nucleus Sample Return, ESA SP-249, ESTEC, Noordwijk, pp. 6974.Google Scholar
Kochan, H., Feuerbacher, B., Joo, F., Klinger, J., Seboldt, W., Bischoff, A., Duren, H., Stöffler, D., Spohn, T., Fechtig, H., Grün, E., Kohl, H., Krankowsky, D., Roessler, K., Thiel, K., Schwehm, G., and Weisshaupt, U. (1989) ‘Comet simulation experiments in the DFVLR space simulators’, Adv. Space Res. 9, No. 3, pp. 113122.Google Scholar
Komle, N.I., and Ip, W.-H. (1987a) ‘Anisotropic non-stationary gas flow dynamics in the coma of comet P/Halley’, Astron. Astrophys. 187, 405410.Google Scholar
Kömle, N.I., and Ip, W.-H. (1987b) ‘A model of the anisotropic structure of the neutral gas coma of a comet’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 247254.Google Scholar
Krasnopolsky, V.A., Moroz, V.I., Krysko, A.A., Tkachuk, A.Y., Moreels, G., Clairemidi, J., Parisot, J.P., Gogoshev, M., and Gogosheva, T. (1987) ‘Properties of dust in comet P/Halley measured by the VEGA-2 three-channel spectrometer’, Astron. Astrophys. 187, 707711.Google Scholar
Kresák, L. (1987) ‘Dormant phases in the aging of periodic comets’, Astron. Astrophys. 187, 906908.Google Scholar
Kührt, E. (1984) ‘Temperature profiles and thermal stresses in cometary nuclei’, Icarus 60, 512521.Google Scholar
Lamy, P. (1986) ‘Ground-based observations of the dust emission from comet Halley’, Adv. Space Res. 5, No. 12, pp. 317323.Google Scholar
Landgraf, W. (1986) ‘On the motion of comet Halley’, Astron. Astrophys. 163, 246260.Google Scholar
Larson, H.P., Davis, D.S., Mumma, M.J., and Weaver, H.A. (1986) ‘Velocity-resolved observations of water in comet Halley’, Astrophys. J. 309, L95L99.Google Scholar
Larson, H.P., Mumma, M.J., and Weaver, H.A. (1987) ‘Kinematic properties of the neutral gas outflow from comet P/Halley’, Astron. Astrophys. 187, 391397.Google Scholar
Larson, S.M. (1978) ‘A rotation model for the spiral structure in the coma of comet Bennett (1970 II)’, Bull. Am. Astron. Soc. 10, 589. (Abstract.)Google Scholar
Larson, S.M. (1980) ‘CO+ in comet Schwassmann-Wachmann 1 near minimum brightness’, Astrophys. J. 238, L47L48.Google Scholar
Larson, S.M. (1986) ‘A review of some digital image processing in cometary research’, in Lagerkvist, C.-I., Lindblad, B.A., Lundstedt, H., and Rickman, H. (eds.), Asteroids, Comets, Meteors II, University of Uppsala, Uppsala, pp. 449459.Google Scholar
Larson, S.M., and Minton, R.B. (1972) ‘Photographic observations of comet Bennett, 1970 II’, in Kuiper, G.P. and Roemer, E. (eds.), Comets: Scientific Data and Missions, University of Arizona, Tucson, pp. 183208.Google Scholar
Larson, S.M., and Sekanina, Z. (1984a) ‘Coma morphology and dust-emission pattern of periodic comet Halley. I. High-resolution images taken at Mount Wilson in 1910’, Astron. J. 89, 571578, 600606.Google Scholar
Larson, S.M., and Sekanina, Z. (1984b) ‘Near-nucleus studies of comet Halley’, in Yeomans, D.K., West, R.M., Harrington, R.S., and Marsden, B.G. (eds.), Cometary Astrometry, JPL Publ. 8482, Jet Propulsion Laboratory, Pasadena, pp. 1420.Google Scholar
Larson, S.M., and Sekanina, Z. (1985) ‘Coma morphology and dust-emission pattern of periodic comet Halley. III. Additional high-resolution images taken in 1910’, Astron. J. 90, 823826, 917923.Google Scholar
Larson, S.M., Sekanina, Z., Levy, D., Tapia, S., and Senay, M. (1987) ‘Comet P/Halley near-nucleus phenomena in 1986’, Astron. Astrophys. 187, 639644.Google Scholar
Luu, J.X., and Jewitt, D.C. (1988) ‘CCD investigation of comet P/Tempel 1’, Bull. Am. Astron. Soc. 20, 835. (Abstract.)Google Scholar
Lynch, D.K., Russell, R.W., Retig, D.A., Rice, C.J., and Young, R.M. (1986) ‘Pre-perihelion observations of comet Halley at 2–13 μm’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 3, pp. 479484.Google Scholar
Maas, D., Krueger, F.R., and Kissel, J. (1989) ‘Mass and density of silicate- and CHON-type dust particles released by comet P/Halley’, in Lagerkvist, C.-I., Lindblad, B.A., and Rickman, H. (eds.), Asteroids, Comets, Meteors III, in press.Google Scholar
Marconi, M.L., and Mendis, D.A. (1986) ‘Infrared heating of comet Halley’s atmosphere’, Earth Moon Planets 36, 249256.Google Scholar
Marsden, B.G. (1969) ‘Comets and nongravitational forces. II’, Astron. J. 74, 720734.Google Scholar
Marsden, B.G. (1970) ‘Comets and nongravitational forces. III’, Astron. J. 75, 7584.Google Scholar
Marsden, B.G. (1972) ‘Nongravitational effects on comets: The current status’, in Chebotarev, G.A., Kazimirchak-Polonskaya, E.I., and Marsden, B.G. (eds.), The Motion, Evolution of Orbits, and Origin of Comets, Reidel, Dordrecht, pp. 135143.Google Scholar
Marsden, B.G. (1986) Catalogue of Cometary Orbits (5th edition), International Astronomical Union, Cambridge, MA, 102 pp.Google Scholar
Marsden, B.G., and Sekanina, Z. (1974) ‘Comets and nongravitational forces. VI. Periodic comet Encke 1786–1971’, Astron. J. 79, 413419.Google Scholar
Marsden, B.G., Sekanina, Z., and Yeomans, D.K. (1973) ‘Comets and nongravitational forces. II’, Astron. J. 78, 211225.Google Scholar
Massonne, L. (1986) ‘Coma morphology and dust emission pattern of comet Halley’, Adv. Space Res. 5, No. 12, pp. 187196.Google Scholar
Massonne, L., Fertig, J., Grün, E., and Schwehm, G. (1986) ‘A cometary dust environment model for the generation of synthetic images’, in Lagerkvist, C.-I., Lindblad, B.A., Lundstedt, H., and Rickman, H. (eds.), Asteroids, Comets, Meteors II, University of Uppsala, Uppsala, pp. 407410.Google Scholar
Massonne, L., and Grün, E. (1986) ‘Structures in Halley’s dust coma’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 3, pp. 319322.Google Scholar
Mayall, N.U. (1941) ‘Note on the spectrum of comet Schwassmann-Wachmann I (1925b)’, Publ. Astron. Soc. Pacific 53, 340341.Google Scholar
Mazets, E.P., Sagdeev, R.Z., Aptekar, R.L., Golenetskii, S.V., Guryan, Yu.A., Dyachkov, A.V., Ilyinskii, V.N., Panov, V.N., Petrov, G.G., Savvin, A.V., Sokolov, I.A., Frederiks, D.D., Khavenson, N.G., Shapiro, V.D., and Shevchenko, V.I. (1987) ‘Dust in comet P/Halley from VEGA observations’, Astron. Astrophys. 187, 699706.Google Scholar
McDonnell, J.A.M., Alexander, W.M., Burton, W.M., Bussoletti, E., Evans, G.C., Evans, S.T., Firth, J.G., Grard, R.J.L., Green, S.F., Grün, E., Hanner, M.S., Hughes, D.W., Igenbergs, E., Kissel, J., Kuczera, H., Lindblad, B.A., Langevin, Y., Mandeville, J.-C., Nappo, S., Pankiewicz, G.S.A., Perry, C. H., Schwehm, G.H., Sekanina, Z., Stevenson, T.J., Turner, R.F., Weishaupt, U., Wallis, M.K., and Zarnecki, J.C. (1987) ‘The dust distribution within the inner coma of comet P/Halley 1982i: Encounter by Giotto’s impact detectors’, Astron. Astrophys. 187, 719741.Google Scholar
McFadden, L.A., A’Hearn, M.F., Feldman, P.D., Roettger, E.E., Edsall, D.M., and Butterworth, P.S. (1987) ‘Activity of P/Halley 23–25 March, 1986: IUE observations’, Astron. Astrophys. 187, 333338.Google Scholar
Meech, K.J., arid Belton, M.J.S. (1989) ‘(2060) Chiron’, IAU Circ. No. 4770.Google Scholar
Millis, R.L., A’Hearn, M.F., and Campins, H. (1988) ‘An investigation of the nucleus and coma of comet P/Arend-Rigaux’, Astrophys. J. 324, 11941209.Google Scholar
Millis, R.L., and Schleicher, D.G. (1986) ‘Rotational period of comet Halley’, Nature 324, 646649.CrossRefGoogle Scholar
Nakano, S. (1987) ‘Periodic comet Encke’, Minor Planet Circ. No. 12577.Google Scholar
Newburn, R.L. Jr., and Spinrad, H. (1989) ‘Spectrophotometry of 25 comets: Post-Halley updates for 17 comets plus new observations for eight additional comets’, Astron. J. 97, 552569.Google Scholar
Öpik, E.J. (1958) Physics of Meteor Flight in the Atmosphere, Interscience, New York, 174 pp.Google Scholar
Palmer, P., de Pater, I., and Snyder, L.E. (1989) ‘VLA observations of the OH emission from comet Wilson (1986l): The value of high resolution in both spatial and velocity coordinates’, Astron. J. 97, 17911797, 1842.Google Scholar
Pankiewicz, G.S., and McDonnell, J.A.M. (1986) ‘Dust emission studies in Halley’s inner coma: An approach to modelling the nucleus emission characteristics’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 2, pp. 201206.Google Scholar
Patashnick, H., Rupprecht, G., and Schuerman, D.W. (1974) ‘Energy source for comet outbursts’, Nature 250, 313314.Google Scholar
Pittich, E.M. (1972) ‘Splitting and sudden outbursts of comets as indicators of nongravitational effects’, in Chebotarev, G.A., Kazimirchak-Polonskaya, E.I., and Marsden, B.G. (eds.), The Motion, Evolution of Orbits, and Origin of Comets, Reidel, Dordrecht, pp. 283286.Google Scholar
Prialnik, D., and Bar-Nun, A. (1987) ‘On the evolution and activity of cometary nuclei’, Astrophys. J. 313, 893905.Google Scholar
Rabinowitz, D.L. (1988) ‘A source map for dust jets observed in the coma of comet P/Halley’, Astron. Astrophys. 200, 225247.Google Scholar
Rahe, J., Donn, B., and Wurm, K. (1969) Atlas of Cometary Forms, NASA SP-198, U.S. GPO, Washington, D.C., 128 pp.Google Scholar
Reitsema, H.J., Delamere, W.A., Williams, A.R., Boice, D.C., Huebner, W.F., and Whipple, F.L. (1989) ‘Dust distribution in the inner coma of comet Halley: Comparison with models’, Icarus 81, 3140.Google Scholar
Rettig, T.W., Kern, J.R., Ruchti, R., Baumbaugh, B., Baumbaugh, A.E., Knickerbocker, K.L., and Dawe, J. (1987) ‘Analysis of the coma outburst of comet Halley March 24–25 (UT), 1986’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 265269.Google Scholar
Ricco, A. (1912) ‘Osservazioni astrofisiche della cometa Halley’, Mem. Soc. Spettrosc. Ital. (Ser. 2) 1, 97111.Google Scholar
Richter, N. (1941) ‘Helligkeitsschwankungen der Kometen und Sonnentätigkeit. I. Erster Schwassmann-Wachmannscher Komet (1925 II)’, Astron. Nachr. 271, 207215.Google Scholar
Richter, N. (1948) ‘Objekt Keuskamp und das Problem der unbestätigten Kometenentdeckungen’, Sterne 24, 5254.Google Scholar
Richter, N. (1954) ‘Die Helligkeitsausbrüche des Kometen 1925 II und ihre Zusammenhänge mit der Sonnentätigkeit’, Astron. Nachr. 281, 241254.Google Scholar
Rickman, H. (1986) ‘Masses and densities of comets Halley and Kopff’, in Melita, O. (ed.), Comet Nucleus Sample Return, ESA SP-249, ESTEC, Noordwijk, pp. 195205.Google Scholar
Rickman, H. (1989) ‘The nucleus of comet Halley: Surface structure, mean density, gas and dust production’, Adv. Space Res. 9, No. 3, pp. 5971.Google Scholar
Rickman, H., and Fernández, J. A. (1986) ‘Formation and blowoff of a cometary dust mantle’, in Melita, O. (ed.), Comet Nucleus Sample Return, ESA SP-249, ESTEC, Noordwijk, pp. 185194.Google Scholar
Rickman, H., and Froeschlé, C. (1983) ‘Model calculations of nongravitational effects on comet P/Halley’, in Gombosi, T.I. (ed.), Cometary Exploration, Hungarian Academy of Sciences, Budapest, vol. 3, pp. 109126.Google Scholar
Rickman, H., and Froeschlé, C. (1986) ‘Model calculations of nongravitational forces on short-period comets. II. High-obliquity case’, Astron. Astrophys. 170, 161166.Google Scholar
Rickman, H., Kamél, L., Festou, M.C., and Froeschlé, C. (1987) ‘Estimates of masses, volumes and densities of short-period comet nuclei’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 471481.Google Scholar
Roemer, E. (1958) ‘An outburst of comet Schwassmann-Wachmann 1’, Publ. Astron. Soc. Pacific 70, 272278.Google Scholar
Roemer, E. (1962) ‘Activity in comets at large heliocentric distance’, Publ. Astron. Soc. Pacific 74, 351365.Google Scholar
Roemer, E., Thomas, M., and Lloyd, R.E. (1966) ‘Observations of comets, minor planets, and Jupiter VIII’, Astron. J. 71, 591601.CrossRefGoogle Scholar
Sagdeev, R.Z., Elyasberg, P.E., and Moroz, V.I. (1989) ‘Is the nucleus of comet Halley a low density body?’, Nature 331, 240242.Google Scholar
Schloerb, F.P., Claussen, M.J., and Tacconi-Garman, L. (1987) ‘OH radio observations of comet P/Halley’, Astron. Astrophys. 187, 469474.Google Scholar
Schlosser, W., Schulz, R., and Koczet, P. (1986) ‘The cyan shells of comet P/Halley’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 3, pp. 495498.Google Scholar
Schulz, R., and Schlosser, W. (1989) ‘CN-shell structures and dynamics of the nucleus of comet P/Halley’, Astron. Astrophys. 214, 375385.Google Scholar
Sekanina, Z. (1969) ‘Dynamical and evolutionary aspects of gradual deactivation and disintegration of short-period comets’, Astron. J. 74, 12231234.Google Scholar
Sekanina, Z. (1972a) ‘A model for the nucleus of Encke’s comet’, in Chebotarev, G.A., Kazimirchak-Polonskaya, E.I., and Marsden, B.G. (eds.), The Motion, Evolution of Orbits, and Origin of Comets, Reidel, Dordrecht, pp. 301307.Google Scholar
Sekanina, Z. (1972b) ‘Rotation effects in the nongravitational parameters of comets’, in Chebotarev, G.A., Kazimirchak-Polonskaya, E.I., and Marsden, B.G. (eds.), The Motion, Evolution of Orbits, and Origin of Comets, Reidel, Dordrecht, pp. 294300.CrossRefGoogle Scholar
Sekanina, Z. (1979) ‘Fan-shaped coma, orientation of rotation axis, and surface structure of a cometary nucleus’, Icarus 37, 420442.Google Scholar
Sekanina, Z. (1980) ‘Physical characteristics of cometary dust from dynamical studies: A review’, in Halliday, I. and Mcintosh, B.A. (eds.), Solid Particles in the Solar System, Reidel, Dordrecht, pp. 237250.Google Scholar
Sekanina, Z. (1981a) ‘Rotation and precession of cometary nuclei’, Ann. Rev. Earth Planet. Sci. 9, 113145.Google Scholar
Sekanina, Z. (1981b) ‘Distribution and activity of discrete emission areas on the nucleus of periodic comet Swift-Tuttle’, Astron. J. 86, 17411773.Google Scholar
Sekanina, Z. (1982) ‘The problem of split comets in review’, in Wilkening, L.L. (ed.), Comets, University of Arizona, Tucson, pp. 251287.Google Scholar
Sekanina, Z. (1984a) ‘Disappearance and disintegration of comets’, Icarus 58, 81100.Google Scholar
Sekanina, Z. (1984b) ‘Precession model for the nucleus of periodic comet Kopff’, Astron. J. 89, 15731586.Google Scholar
Sekanina, Z. (1985a) ‘Precession model for the nucleus of periodic comet Giacobini-Zinner’, Astron. J. 90, 827845.Google Scholar
Sekanina, Z. (1985b) ‘Nucleus precession of periodic comet Comas-Solá’, Astron. J. 90, 13701381. Adv. Space Res. 5, No. 12, pp. 307316.Google Scholar
Sekanina, Z. (1986a) ‘Nucleus studies of comet Halley’, Adv. Space Res. 5, No. 12, pp. 307316.Google Scholar
Sekanina, Z. (1986b) ‘Comet Halley (1982i)’, IAU Circ. No. 4187.Google Scholar
Sekanina, Z. (1987a) ‘Dust environment of comet P/Halley: A review’, Astron. Astrophys. 187, 789795.Google Scholar
Sekanina, Z. (1987b) ‘Anisotropic emission from comets: Fans versus jets. I. Concept and modeling’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 315322.Google Scholar
Sekanina, Z. (1987c) ‘Anisotropic emission from comets: Fans versus jets. II. Periodic comet Tempel 2’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 323336.Google Scholar
Sekanina, Z. (1988a) ‘Nucleus of comet IRAS-Araki-Alcock (1983 VII)’, Astron. J. 95, 18761894.Google Scholar
Sekanina, Z. (1988b) ‘Outgassing asymmetry of periodic comet Encke. I. Apparitions 1924–1984’, Astron. J. 95, 911924, 970971.Google Scholar
Sekanina, Z. (1988c) ‘Outgassing asymmetry of periodic comet Encke. II. Apparitions 1868–1918 and a study of the nucleus evolution’, Astron. J. 96, 14551475, 1508.Google Scholar
Sekanina, Z. (1988d) ‘Periodic comet Tempel 2 (1987g)’, IAU Circ. No. 4624.Google Scholar
Sekanina, Z. (1989) ‘Nuclei of two Earth-grazing comets of fan-shaped appearance’, Astron. J. 98, 23222345.Google Scholar
Sekanina, Z. (1990) ‘Periodic comet Machholz and its idiosyncrasies’, Astron. J., in press.Google Scholar
Sekanina, Z., and Farrell, J.A. (1978) ‘Comet West 1976 VI: Discrete bursts of dust, split nucleus, flare-ups, and particle evaporation’, Astron. J. 83, 16751680.Google Scholar
Sekanina, Z., and Larson, S.M. (1983) ‘Rotating comets: Development of dust spirals into envelopes’, Bull. Am. Astron. Soc. 15, 651. (Abstract.)Google Scholar
Sekanina, Z., and Larson, S.M. (1984) ‘Coma morphology and dust-emission pattern of periodic comet Halley. II. Nucleus spin vector and modeling of major dust features in 1910’, Astron. J. 89, 14081425, 14461447.Google Scholar
Sekanina, Z., and Larson, S.M. (1986a) ‘Coma morphology and dust-emission pattern of periodic comet Halley. IV. Spin vector refinement and map of discrete dust sources for 1910’, Astron. J. 92, 462482.Google Scholar
Sekanina, Z., and Larson, S.M. (1986b) ‘Dust jets in comet Halley observed by Giotto and from the ground’, Nature 321, 357361.Google Scholar
Sekanina, Z., and Yeomans, D.K. (1985) ‘Orbital motion, nucleus precession, and splitting of periodic comet Brooks 2’, Astron. J. 90, 23352352.Google Scholar
Shao, C.-Y. (1981) ‘On the outbursts of P/comet Schwassmann-Wachmann 1 during 1980–1981’, Int. Comet Q. 3, 76.Google Scholar
Shao, C.-Y., and Schwartz, G. (1981) ‘Thar she blows—again!’, Sky Telese. 61, 390.Google Scholar
Shimizu, M. (1976) ‘The structure of cometary atmospheres. I. Temperature distribution’, Astrophys. Space Sci. 40, 149155.Google Scholar
Shulman, L.M. (1972) ‘The evolution of cometary nuclei’, in Chebotarev, G.A., Kazimirchak-Polonskaya, E.I., and Marsden, B.G., The Motion, Evolution of Orbits, and Origin of Comets, Reidel, Dordrecht, pp. 271282.Google Scholar
Silva, A.M., and Mirabel, I.F. (1988) ‘Gaseous outbursts in comet P/Halley. A model for the dissociation of the OH radical’, Astron. Astrophys. 201, 350354.Google Scholar
Simpson, J.A., Rabinowitz, D., Tuzzolino, A.J., Ksanfomality, L.V., and Sagdeev, R.Z. (1987) ‘The dust coma of comet P/Halley: Measurements on the VEGA-1 and VEGA-2 spacecraft’, Astron. Astrophys. 187, 742752.Google Scholar
Sitarski, G. (1987) ‘Linkage of the 53 observed perihelion times of the periodic comet Encke’, Acta Astron. 37, 99113.Google Scholar
Smirnov, V.N., Vaisberg, O.L., and Anisimov, S. (1987) ‘An attempt to evaluate the structure of cometary dust particles’, Astron. Astrophys. 187, 774778.Google Scholar
Smoluchowski, R. (1981a) ‘Amorphous ice and the behavior of cometary nuclei’, Astrophys. J. 244, L31L34.Google Scholar
Smoluchowski, R. (1981b) ‘Heat content and evolution of cometary nuclei’, Icarus 47, 312—319.Google Scholar
Smoluchowski, R. (1982) ‘Heat transport in porous cometary nuclei’, J. Geophys. Res. 87, A422-A424.Google Scholar
Smoluchowski, R. (1986) ‘Brightness curve and porosity of cometary nuclei’, in Lagerkvist, C.-I., Lindblad, B.A., Lundstedt, H., and Rickman, H. (eds.), Asteroids, Comets, Meteors II, University of Uppsala, Uppsala, pp. 305315.Google Scholar
Smoluchowski, R. (1989) ‘Properties of mantles on cometary nuclei’, Astron. J. 97, 241245.Google Scholar
Snyder, L.E., Webber, J.C., Crutcher, R.M., and Swenson, G.W. Jr. (1976) ‘Radio observations of OH in comet West 1975n’, Astrophys. J. 209, L49L52.Google Scholar
Spohn, T., Benkhoff, J., Klinger, J., Grün, E., and Kochan, H. (1989) ‘Thermal modelling of two KOSI comet nucleus simulation experiments’, Adv. Space Res. 9, No. 3, pp. 127131.Google Scholar
Tauber, F., and Kührt, E. (1987) ‘Thermal stresses in cometary nuclei’, Icarus 69, 8390.Google Scholar
Thomas, N., Boice, D.C., Huebner, W.F., and Keller, H.U. (1988) ‘Intensity profiles of dust near extended sources on comet Halley’, Nature 332, 5152.Google Scholar
Thomas, N., and Keller, H.U. (1987) ‘Fine dust structures in the emission of comet P/Halley observed by the Halley Multicolour Camera on board Giotto’, Astron. Astrophys. 187, 843846.Google Scholar
Vaisberg, O.L., Smirnov, V., Omelchenko, A., Gorn, L., and lovlev, M. (1987) ‘Spatial and mass distribution of low-mass dust particles (m < 10-10 g) in comet P/Halley’s coma’, Astron. Astrophys. 187, 753760.Google Scholar
Van Biesbroeck, G. (1921) ‘Observations of comets’, Astron. J. 33, 195200.Google Scholar
Vergazov, M.A., and Krasnobaev, K.V. (1985) ‘Axisymmetric flow of reacting gas from a comet nucleus’, Sov. Astron. Lett. 11, 232235.Google Scholar
Walker, M.F. (1959) ‘Observations of comet Schwassmann-Wachmann 1 during an outburst’, Publ. Astron. Soc. Pacific 71, 169170.Google Scholar
Wallis, M.K., and Macpherson, A.K. (1981) ‘On the outgassing and jet thrust of snowball comets’, Astron. Astrophys. 98, 4549.Google Scholar
Wallis, M.K., and Wickramasinghe, N.C. (1987) ‘Crustal models of the evolving comet nucleus’, in Rolfe, E.J. and Battrick, B. (eds.), Diversity and Similarity of Comets, ESA SP-278, ESTEC, Noordwijk, pp. 495499.Google Scholar
Weaver, H.A., Feldman, P.D., Festou, M.C., A’Hearn, M.F., and Keller, H.U. (1981) ‘IUE observations of faint comets’, Icarus 47, 449463.Google Scholar
Weaver, H.A., Mumma, M.J., and Larson, H.P. (1987) ‘Infrared investigation of water in comet P/Halley’, Astron. Astrophys. 187, 411418.Google Scholar
Weaver, H.A., Mumma, M.J., Larson, H.P., and Davis, D.S. (1986) ‘Post-perihelion observations of water in comet Halley’, Nature 324, 441444.Google Scholar
Weigert, A. (1959) ‘Halobildung beim Kometen 1925 II’, Astron. Nachr. 285, 117128.Google Scholar
Weissman, P.R. (1986) ‘Are cometary nuclei primordial rubble piles?’, Nature 320, 242244.Google Scholar
Weissman, P.R. (1987) ‘Post-perihelion brightening of comet P/Halley: Springtime for Halley’, Astron. Astrophys. 187, 873878.Google Scholar
Whipple, F.L. (1950) ‘A comet model. I. The acceleration of comet Encke’, Astrophys. J. 111, 375394.Google Scholar
Whipple, F.L. (1951) ‘A comet model. II. Physical relations for comets and meteors’, Astrophys. J. 113, 464474.Google Scholar
Whipple, F.L. (1977) ‘The constitution of cometary nuclei’, in Delsemme, A.H. (ed.), Comets, Asteroids, Meteorites, University of Toledo, Toledo, Ohio, pp. 2535.Google Scholar
Whipple, F.L. (1978) ‘Rotation period of comet Donati’, Nature 273, 134135.Google Scholar
Whipple, F.L. (1980) ‘Rotation and outbursts of comet Schwassmann-Wachmann 1’, Astron. J. 85, 305313.Google Scholar
Whipple, F.L. (1984) ‘Comet P/Holmes, 1892 III: A case of duplicity?’, Icarus 60, 522531.Google Scholar
Whipple, F.L., and Hamid, S.E. (1952) ‘On the origin of the Taurid meteor streams’, Helwan Obs. Bull. No. 41, pp. 130.Google Scholar
Whipple, F.L., and Hamid, S.E. (1972) ‘A search for Encke’s comet in ancient Chinese records: A progress report’, in Chebotarev, G.A., Kazimirchak-Polonskaya, E.I., and Marsden, B.G. (eds.), The Motion, Evolution of Orbits, and Origin of Comets, Reidel, Dordrecht, pp. 152154.Google Scholar
Whipple, F.L., and Sekanina, Z. (1979) ‘Comet Encke: Precession of the spin axis, nongravitational motion, and sublimation’, Astron. J. 84, 18941909.Google Scholar
Whitney, C. (1955) ‘Comet outbursts’, Astrophys. J. 122, 190195.Google Scholar
Wilhelm, K., Cosmovici, C.B., Delamere, W.A., Huebner, W.F., Keller, H.U., Reitsema, H., Schmidt, H.U., and Whipple, F.L. (1986) ‘A three-dimensional model of the nucleus of comet Halley’, in Battrick, B., Rolfe, E.J., and Reinhard, R. (eds.), Exploration of Halley’s Comet, ESA SP-250, ESTEC, Noordwijk, vol. 2, pp. 367369.Google Scholar
Winnecke, A. (1864) ‘Pulkowaer Beobachtungen des hellen Cometen von 1862’, Mém. Acad. Imp. Sci. St.-Pétersbourg 7 (Ser. 7), No. 7, pp. 139.Google Scholar
Yeomans, D.K. (1971) ‘Nongravitational forces affecting the motion of periodic comets Giacobini-Zinner and Borrelly’, Astron. J. 76, 8386.Google Scholar
Yeomans, D.K. (1984) ‘The orbits of comets Halley and Giacobini-Zinner’, in Yeomans, D.K., West, R.M., Harrington, R.S., and Marsden, B.G. (eds.), Cometary Astrometry, JPL Publ. 8482, Jet Propulsion Laboratory, Pasadena, pp. 167175.Google Scholar
Yeomans, D.K., and Chodas, P.W. (1989) ‘An asymmetric outgassing model for cometary nongravitational accelerations’, Astron. J. 98, 10831093.Google Scholar
Yeomans, D.K., and Kiang, T. (1981) ‘The long-term motion of comet Halley’, Mon. Not. R. Astron. Soc. 197, 633646.Google Scholar