References
Kuno, H. -Formation of calderas and magmatic evolution - Trans. Amer. Geophys. Union,34, 267–280, 1953.
————— -Origin of Cenozoic petrographic provinces of Japan and surrounding areas - Bull. Volcanol., Ser. II,20, 37–76, 1959.
Osborn, E. F. -Role of oxygen pressure in the crystallization and differentiation of basaltic magma - Amer. Jour. Sci.,257, 609–647, 1959.
Shimazu, Y. -A thermodynamical aspect of the earth’s interior - physical interpretation of magmatic differentiation process - J. Earth Sci., Nagoya Univ.,7, 1–34, 1959 a.
————— -A physical interpretation of crystallization of the Skaergaard intrusion -ibid., 7, 35–48, 1959 b.
————— -A note on genesis and upward transfer of parental basaltic magma of igneous rocks -ibid., 7, 91–97, 1959 c.
————— -Phisical conditions of contamination and fractionation of basaltic parental magmas -ibid., 8, 72–85, 1960 a.
Shimazu, Y. -Paths of fractional differentiation of basaltic magmas and fractionation diagram (in Japanese) - Bull. Volcanol. Soc. Japan, Ser. 2,5, 25–34, 1960 b.
————— -A thermodynamical aspect of volcanic gas - Jour. Earth Sci. Nagoya Univ.,8, 197–221, 1960 c.
————— -Physical theory of generation, upward transfer, differentiation, solidification, and explosion of magmas -ibid., 9, 185–223, 1961.
----- -Thermodynamics of tectogenesis - Earth Science (Journal of the Association for the Geological Collaboration in Japan), No. 58, 1–10, 1962.
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Shimazu, Y. Physical and physico - chemical theory of generation, upward transfer, differentiation, and explosion of magmas. Bull Volcanol 26, 237–246 (1963). https://doi.org/10.1007/BF02597289
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DOI: https://doi.org/10.1007/BF02597289