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[80] Hayatsu, R.; Scott, R.G.; Studier, M.H.; Lewis, R.S.; Anders, E. Carbynes in
meteorites: Detection, low-temperature origin, and implications for interstellar
molecules. Science 1980, 209, 1515-1518.
[81] Rietmeijer, F.J.M. Interrelationships among meteoric metals, meteors, inter-
planetary dust, micrometeorites, and meteorites. Meteoritics Planet. Sci. 2000,
35, 1025-1041.
[82] Rietmeijer, F.J.M. The earliest chemical dust evolution in the solar nebula.
Chemie der Erde 2002, 62, 1-45.
[83] Rietmeijer, F.J.M. Interplanetary dust particles. In McGraw-Hill Yearbook of
Science & Technology 2001. The McGraw-Hill Companies Inc., 2000, 208-211.
[84] Rietmeijer, F.J.M.; Nuth, III, J.A. Collected extraterrestrial materials:
Constraints on meteor and fireball compositions. Earth, Moon, Planets 2000,
82/83, 325-350.
[85] Rietmeijer, F.J.M.; Mackinnon, I.D.R. Cometary evolution: Clues from
chondritic interplanetary dust particles. In Symposium on the Diversity and
Similarity of Comets, European Space Agency SP-278. Rolfe E.J.; Battrick, B.,
Eds. ESTEC, Noordwijk, The Netherlands, 1987, 363-367.
[86] Mackinnon, I.D.R.; Rietmeijer, F.J.M. Mineralogy of chondritic interplane-
tary dust particles. Revs. Geophys. 1987, 25, 1527-1553.
[87] Lawler, M.E.; Brownlee, D.E. CHON as a component of dust from comet
Halley. Nature 1992, 359, 810-812.
[88] A'Hearn, M.F.; Millis, R.C.; Schleicher, D.O.; Osip, D.J.; Birch, P.V. The
ensemble properties of comets: Results from narrowband photometry of 85
Comets, 1976-1992. Icarus 1995, 118, 223-270.
[89] Schleicher, D.G.; Lederer, S.M.; Millis, R.L.; Farnham, T.L. Photometric
behavior of Comet Hale-Bopp (C/1995 O1) before perihelion. Science 1997,
275, 1913-1915.
[90] Schleicher, D.G.; Millis, R.L. Results from narrowband photometry of
ROSETTA's new target Comet 67P/Churyumov-Gerasimenko. DPS 35th
Meeting, 2003, on-line abstract.
[91] Farnham, T.L.; Schleicher, D.G.; Woodney, L.M.; Birch, P.V.; Eberhardy,
C.A.; Levy, L. Imaging and photometry of Comet C/1999 S4 (LINEAR)
before perihelion and after breakup. Science 2001, 292, 1348-1353.
[92] Heimann, R.B. Resistive heating and laser irradiation. In Carbyne and
Carbynoid Structures. Heimann, R.B.; Evsyukov, S.E.; Kavan, L., Eds. Kluwer
Academic Publishers, Dordrecht, Boston, London, 1999, 139-148.
[93] Cataldo, F.; Keheyan, Y. Generation of higher fullerenes from laser ablation
of carbyne and C
60
photopolymer astrophysical implications. Full. Nanotubes
Carb. Nanostructures 2002, 10, 99-106.
[94] Yeretzian, C.; Hansen, K.; Diederich, F.; Whetten, R.L. Coalescence reactions
of fullerenes. Nature 1992, 359, 44-47.
[95] Li, S-Y.; Zhou, H-H.; Gu, J-L.; Zhu, J. Does carbyne really exist? Carbynes in
expanded graphite. Carbon 2000, 38, 934-937.
[96] Spitsina, N.G.; Boiko, G.N.; Kudryavisev, Yu. P.; Babuev, V.G.; Guseva,
M.B.; Evsyukov, S.E. Concerning the existence of linear carbon molecules in
soot obtained in an electric arc. Russian Chem. Bull. 1995, 44, 1339-1341.
[97] Cataldo, F. An investigation of the optical properties of carbon black, fullerite,
and other carbonaceous materials in relation to the spectrum of interstellar
extinction of light. Full. Nanotubes Carb. Nanostructures 2002, 10, 155-170.
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