1. .. (1987). . , Issue 46, . 154-171.
  2. .. . (1991). , . ޣ , , , 128 .
  3. Graham, Bevan and Hutchison (1985). Catalogue of Meteorites. 4th Edition
  4. Meisel Thomas, Koeberl Christian (1988). Geochemical studies of impact glass from the Darwin crater, Tasmania. Meteoritics, Vol.23, No.3, P. 289-290
  5. Matsuda Jun-ichi, Matsubara Kayo, Yajima Haruaki, Yamamoto Koshi (1989). Anomalous Ne enrichment in obsidians and Darwin glass: diffusion of noble gases in silica-rich glasses. Geochim. et cosmochim. acta , Vol.53, No.11, . 809-810
  6. Matsuda Jun-ichi, Yajima Haruaki (1989). Noble gases in Darwin glass; Anomalous neon enrichment . Lunar and Planet. Sci. - Houston (Tex.), 1989. - Vol. 20: 20th Conf., March 13-17, 1989: Abstr. Pap., P. 628-629
  7. Meisel Thomas, Koeberl Christian, Ford R.J. (1990). Geochemistry of Darwin impact glass and target rocks . Geochim. et cosmochim. acta., Vol.54, No.5, P. 1463-1474
  8. Jakes P., Sen S., Matsuishi K. (1991). Tektites, experimental equivalents and properties of superheated (impact) melts . Lunar and Planet. Sci. Abstr. Pap. 22nd Lunar and Planet. Sci. Conf., March 18-22, 1991 - Vol. 22 , Houston (Tex.),, P. 633-634
  9. Hodge, Paul W., (1994). Meteorite craters and impact structures of the Earth. Cambridge University Press , 122 .
  10. Chaussidon Marc, Koeberl Christian (1995). Boron content and isotopic composition of tektites and impact glasses: Constraints on source regions. Geochim. et cosmochim. acta , Vol.59, No.3, P. 613-624
  11. Jarmo Moilanen (2004). References.
  12. Haines P.W. (2005). Impact cratering and distal ejecta: the Australian record. Aus.Journal of Earth sciences. Vol.52, N.4/5. Aug./Oct. p.481-507
  13. Bailey M.J., Howard K.T., Kirkby K.J., Jeynes C. (2009). Characterisation of inhomogeneous inclusions in Darwin glass using ion beam analysis. Nucl. Instrum. and Meth. Phys. Res. B, Vol.267, No.12, P.2219-2224
  14. D. Rajmon (2009).


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( " "):

18 , . 50 . . : , . : , , ( ). CaO Na(,2)O, . 3 ( ): 1) Al-, 2) Na-, 3) Al-. . , . , .
(Meisel Thomas, Koeberl Christian, 1988).

, , - - . SiO(,2) 71 76%. Ne T' 800 'C, Ar 800-1400', Kr 1200-1400'. Ne 400-500 'C. Ne . , He, Ne. . - , . ~22 /. Ne/Ar ,
(Matsuda Jun-ichi, Matsubara Kayo, Yajima Haruaki, Yamamoto Koshi, 1989).

60-100 - . , DG:2 . (DG:3) DG:2 DG:1. DG:3 800 ''. , ('84)Kr ('132)Xe DG:2 1, ('20)Ne 64. ('20)Ne 78. . , ('20)Ne 1800, - 10. Ne/Ar, , . Ne/Ar Ne .
(Matsuda Jun-ichi, Yajima Haruaki, 1989).

. . 3 : A- B- Fe Al, C- Mg, Na ( Cr, Mn, Co Ni). , A B . : 30% , 60% SiO(,2) 10% Al(,2)O(,3), FeO, MgO, Na CaO. . , - Mn, Co, Cr Ni C. .
(Meisel Thomas, Koeberl Christian, Ford R.J., 1990).

(>(,.)) . , , , , , , , (, , ) , - -. (, ) . , t~t(,.) t=t(,.)+150 'C, . , - , .
(Jakes P., Sen S., Matsuishi K., 1991).

- Li, Be B 27 . 3 (, . , -') ( ). , - Li-B B-Be. ''{11} %%, (-1,9+/-1,9%%) -, . ''{11} -9,3+/-1,5%% (. +2,7+/-1,5%%), . ( 10 Rb-Sr), , . . 1 . ''{11}
(Chaussidon Marc, Koeberl Christian, 1995).




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