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  • Adams N. G., Smith D., and Millar T. J. 1984. The importance of kinetically exited ions in the synthesis of interstellar molecules. Monthly Notices of the Royal Astronomical Society 211:857865.
  • Amari S., Lewis R. S., and Anders E. 1994. Interstellar grains in meteorites: I. Isolation of SiC, graphite, and diamond; size distributions of SiC and graphite. Geochimica et Cosmochimica Acta 58:459470.
  • Anders E. and Zinner E. 1993. Interstellar grains in primitive meteorites: Diamond, silicon carbide, and graphite. Meteoritics 28:490514.
  • Andersen A. S., Jørgensen U. G., Nicolaisen F. M., Sørensen P. G., and Glejbøl K. 1998. Spectral features of presolar diamonds in the laboratory and in carbon star atmospheres. Astronomy & Astrophysics 330:10801090.
  • Braatz A., Ott U., Henning T., Jager C., and Jeschke G. 1999. Nitrogen configuration in presolar diamonds (abstract #1551). 30th Lunar and Planetary Science Conference. CD-ROM.
  • Braatz A., Ott U., Henning T., Jager C., and Jeschke G. 2000. Infrared, ultraviolet, and electron paramagnetic resonance measurements on presolar diamonds: Implications for optical features and origin. Meteoritics & Planetary Science 35:7584.
  • Cheung A. C., Rank D. M., Townes C. H., Thornton D. D., and Welch W. J. 1968. Detection of NH3 molecules in the interstellar medium by their microwave emission. Physical Review Letters 21:17011705.
  • Colangeli L., Mennella V., Stephens J. R., and Bussoletti E. 1994. Laboratory simulation of micro-diamonds present in space. Astronomy & Astrophysics 284:583592.
  • Collins A. T., Davies G., Kanda H., and Woods G. S. 1988. Spectroscopic study of carbon-13 synthetic diamond. Journal of Physics C: Solid State Physics 21:13631376.
  • Crawford I. A. and Williams D. A. 1997. Detection of interstellar NH towards Zeta Ophiuchi by means of ultra-high-resolution spectroscopy. Monthly Notices of the Royal Astronomical Society 291:L53L56.
  • Davis J. 1977. The optical properties of diamonds. In Chemistry and physics of carbon, edited by Philips P. and Turner P. New York: Marcel Dekker Inc. pp. 1143.
  • Demeny A., Garai J., Nagy G., Bajnoczi B., Nemeth T., and Drozd V. 2011. Hydrogen isotope compositions in carbonado diamond: Constraints on terrestrial formation. Central European Geology 54:5174.
  • Field J. E. 1992. The properties of natural and synthetic diamonds. p. 266. London: Academic Press.
  • Garai J., Haggerty S. E., Rekhi S., and Chance M. 2006. Infrared absorption investigations confirm the extraterrestrial origin of carbonado-diamonds. The Astrophysical Journal Letters 653:L153L156.
  • Hill H. G. M., d’Hendecourt L. B., Perron C., and Jones A. 1997. Infrared spectroscopy of interstellar nanodiamonds from the Orgueil meteorite. Meteoritics & Planetary Science 32:713718.
  • Hily-Blant, Maret S., Bacmann A., Bottinelli S., Parise B., Caux E., Faure A., Bergin E. A., Blake G. A., Castets A., Ceccarelli C., Cernicharo J., Coutens A., Crimier N., Demyk K., Dominik C., Gerin M., Hennebelle P., Henning T., Kahane C., Klotz A., Melnick G., Pagani L., Schilke P., Vastel V., Wakelam C., Walters A., Baudry A., Bell T., Benedettini M., Boogert A., Cabrit S., Caselli P., Codella C., Comito C., Encrenaz P., Falgarone E., Fuente A., Goldsmith P. F., Helmich F., Herbst E., Jacq T., Kama M., Langer W., Lefloch B., Lis D., Lord S., Lorenzani A., Neufeld D., Nisini B., Pacheco S., Phillips T., Salez M., Saraceno P., Schuster K., Tielens X., van der Tak F., van der Wiel M. H. D., Viti S., Wyrowski F., and Yorke H. 2010. Nitrogen hydrides in the cold envelope of IRAS 16293-2422. Astronomy & Astrophysics 521:L52.
  • Huebner W. F. and Giguere P. T. 1980. A model of comet comae. II––Effects of solar photodissociative ionization. The Astrophysical Journal 238:753762.
  • Jones A. 2001. The nature of very small interstellar grains. In Galactic structure, stars and the interstellar medium, edited by Woodward C. E., Bicay M. D., and Shull J. M. ASP Conference Series. p. 171. San Francisco: Astronomical Society of the Pacific.
  • Jones A. and d’Hendecourt L. B. 2000. Interstellar nanodiamonds: The carriers of mid-infrared emission bands, 2000. Astronomy & Astrophysics 355:1191.
  • Kagi H. and Fukura S. 2008. Infrared and Raman spectroscopic observations of Central African carbonado and implications for its origin. European Journal of Mineralogy 20:387393.
  • Koike C., Wickramasinghe C., Kano N., Yamakoshi K., Yamamoto T., Kaito C., Kimura S., and Okuda H. 1995. The infrared spectra of diamond-like residues from the Allende meteorite. Monthly Notices of the Royal Astronomical Society 277:986994.
  • Lawson S. C. and Kanda H. 1993. An annealing study of nickel point defects in high-pressure synthetic diamond. Journal of Applied Physics 73:39673973.
  • Lawson S. C., Fisher D., Hunt D. C., and Newton M. E. 1998. On the existence of positively charged single-substitutional nitrogen in diamond. Journal of Physics: Condensed Matter 10:61716180.
  • Lewis R. S., Tang M., Wacker J. F., Anders E., and Steel E. 1987. Interstellar diamonds in meteorites. Nature 326:160162.
  • Lewis R. S., Anders E., and Draine T. 1989. Properties, detectability and origin of interstellar diamonds in meteorites. Nature 339:117121.
  • McNamara K. M., Williams G. E., Gleason K. K., and Scruggs B. E. 1994. Identification of defects and impurities in chemical-vapor-deposited diamond through infrared spectroscopy. Journal of Applied Physics 76:24662472.
  • Meier R., Wellnitz D., Kim S. J., and A’Hearn M. F. 1998. The NH and CH bands of comet C/1996 B2 (Hyakutake). Icarus 136:268279.
  • Meyer D. M. and Roth K. C. 1991. Discovery of interstellar NH. The Astrophysical Journal 376:L49L52.
  • Mitchell G. F., Ginsburg G. L., and Kuntz P. J. 1978. A steady-state calculation of molecule abundances in interstellar clouds. The Astrophysical Journal Supplement 38:3968.
  • Mutschke H., Dorschner J., Henning T., Jäger C., and Ott U. 1995. Facts and artifacts in interstellar diamond spectra. The Astrophysical Journal Letters 454:L157L160.
  • Mutschke H., Dorschner J., Henning T., Jäger C., and Ott U. 1996. Facts and artifacts in interstellar diamond spectra, errata. The Astrophysical Journal Letters 461:L59.
  • Persson C. M., Black J. H., Cernicharo J., Goicoechea J. R., Hassel G. E., Herbst E., Gerin M., De Luca M., Bell T. A., Coutens A., Falgarone E., Goldsmith P. F., Gupta H., Kaźmierczak M., Lis D. C., Mookerjea B., Neufeld D. A., Pearson J., Phillips T. G., Sonnentrucker P., Stutzki J., Vastel C., Yu S., Boulanger F., Dartois E., Encrenaz P., Geballe T. R., Giesen T., Godard B., Gry C., Hennebelle P., Hily-Blant P., Joblin C., Kołos R., Krełowski J., Martín-Pintado J., Menten K., Monje R., Perault M., Plume R., Salez M., Schlemmer S., Schmidt M., Teyssier D., Péron I., Cais P., Gaufre P., Cros A., Ravera L., Morris P., Lord S., and Planesas P. 2010. Nitrogen hydrides in interstellar gas. Astronomy & Astrophysics 521:L45.
  • Samoilovitch M. I., Bezrukov G. N., Butuzov V. P., and Podol’skikh L. D. 1975. Soviet Physics Doklady 19:409410.
  • Schmitt J. L. 1969. An investigation of the NH bands in stellar spectra. Publications of the Astronomical Society of the Pacific 81:657664.
  • Swings P., Elvey C. T., and Babcock H. W. 1941. The spectrum of comet Cunningham, 1940C. The Astrophysical Journal 94:320343.