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Laboratory Studies of Grain Mantles in Interstellar Space

Published online by Cambridge University Press:  12 April 2016

C.X. Mendoza-Gomez
Affiliation:
Laboratory Astrophysics, University of Leiden, Postbus 9501 2300 RA Leiden, The Netherlands
J.M. Greenberg
Affiliation:
Laboratory Astrophysics, University of Leiden, Postbus 9501 2300 RA Leiden, The Netherlands

Abstract

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At Laboratory Astrophysics we are simulating the most relevant conditions in interstellar space in order to follow the chemical and physical evolution of, among others, interstellar organic grain mantles.

Type
Origin of Interplanetary Dust: from Comets and Asteroids, Back to Interstellar Dust
Copyright
Copyright © Kluwer 1991

References

Agarwal, V.K., Schutte, W., Greenberg, J.M., Ferris, J.P., Briggs, R., Connor, S., van de Bult, C.P.E.M. and Baas, F., 1985, in: Origins of Life 16, D. Reidel Publ. Co., 2140.Google Scholar
Cohen, M., 1983, in: Ap. J. Letters, 270, L69.CrossRefGoogle Scholar
Cronin, J., and Pizarrello, S., 1990, in: Geochim. Cosmochim. Acta, Vol. 54, 28592868.CrossRefGoogle Scholar
Franchi, I.A., Alexander, C.M.O., Pillinger, C.T., Mendoza-Gómez, C.X. and Greenberg, J.M. 1989, in: Physics and Mechanics of Cometary Materials (ESA SP-302), 8992.Google Scholar
Greenberg, J.M. and Yencha, A.J., 1972, in: Interstellar dust and related topics, eds. Greenberg, J.M. and van de Hulst, H.C.. D. Reidel Publ. Co., Dordrecht, Holland, p. 3.Google Scholar
Greenberg, J.M., 1979, in: Stars and Star Systems, ed. Westerlund, B.E., Dordrecht, Reidel, 1973.Google Scholar
Greenberg, J.M., 1982, in: Submillimetre Wave Astronomy, eds. Beekman, J.E. and Phillips, J.P., Cambridge University Press.Google Scholar
Greenberg, J.M. 1986, in: Astrochemistry, eds. Vardya, M.S. and Tarafdar, S.P.. 501523.Google Scholar
Grim, R., 1988. Ph D. Thesis. University of Leiden, The Netherlands.Google Scholar
Hagen, W., Allamandola, L.J. and Greenberg, J.M., 1979, in: Astrophys. Sp. Sc. 65, 215240.CrossRefGoogle Scholar
Kissel, J., and Krueger, F.R., 1987, in: Nature 326, 755.CrossRefGoogle Scholar
Lacy, J.H., Baas, F., Allamandolla, L.J., Persson, S.E. Mc., Gregor, P.J., Lonsdale, C.J., Geballe, T.R., and van de Bult, C.E.P.M., 1984, in: Ap. J., 276, 533.CrossRefGoogle Scholar
Léger, A., Jura, M., and Omont, A., 1985, in: Astron. Astr., 144, 147.Google Scholar
Oró, J., 1961, in: Nature 190, 384390.Google Scholar
Pouwels, A.D., Eijkel, G.B., Arisz, P.W. and Boon, J.J., 1989, in: J. Anal. Appl. Pyrol. 15, 7184.CrossRefGoogle Scholar
Schutte, W.A., 1988. Ph.D. Thesis, Univ. of Leiden, The Netherlands.Google Scholar
van de Bult, C.E.P.M., Greenberg, J.M., Whittet, D.C.B., 1985, in: M.N.R.A.S., 214, 289.CrossRefGoogle Scholar
Westmore, J. and Alauddin, M., 1986, in: Mass Spectrom. Rev., 5, 381.CrossRefGoogle Scholar