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Mjolnir marine impact crater; summary of geophysical research


, : Mjolnir marine impact crater; summary of geophysical research. Eos, Transactions, American Geophysical Union: 7, Suppl., Pages F795. 2002.



Accession: 018458920

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Related references

Shuvalov Valery; Dypvik Henning; Tsikalas Filippos, 2002: Numerical simulations of the Mjolnir marine impact crater. Journal of Geophysical Research, E, Planets 107(7): 1

Tsikalas Filippos; Gudlaugsson Steinar Thor; Faleide Jan Inge; Eldholm Olav, 2002: The Mjolnir marine impact crater porosity anomaly. Deep-Sea Research Part II: Topical Studies in Oceanography

Tsikalas F.; Faleide J.I.; Gudlaugsson S.T.; Eldholm O.; Dypvik H., 2000: The Late Jurassic Mjolnir marine impact crater. International Geological Congress, Abstracts = Congres Geologique International, Resumes 31: (unpaginated

Tsikalas Filippos; Gudlaugsson Steinar Thor; Faleide Jan Inge; Eldholm Olav, 1999: Mjolnir Structure, Barents Sea; a marine impact crater laboratory. Integrated geophysical, mineralogic and geochemical analyses substantiate that the 40-km-diameter Mjolnir Structure in the Barents Sea is a buried marine impact crater of Volgian-Berriasian age, 141-149 Ma. The discovery of a proximal ejecta layer...

Tsikalas Filippos; Faleide Jan Inge; Eldholm Olav; Dypvik Henning, 2002: Seismic correlation of the Mjolnir marine impact crater to shallow boreholes. Pages 307-321 2002

Tsikalas F.; Faleide J.I., 2003: Mjolnir marine crater resulting from oblique impact; compelling evidence. LPI Contribution 1167: (Abstract 4005

Dypvik Henning; Ferrell Ray E.J..; Sandbakken Pal T., 2003: The clay mineralogy of sediments related to the marine Mjolnir impact crater. The 40 km diameter Mjolnir Crater is located on the central is located on the central Barents Sea shelf, north of Norway. It was formed about 142+ or -2.6 Myr ago by the impact of a 1-2 km asteroid into the shallow shelf clays of the Hekkingen For...

Tsikalas Filippos; Faleide Jan Inge, 2004: Near-field erosional features at the Mjolnir impact crater; the role of marine sedimentary target. Pages 39-55 2004

Tsikalas F.; Dypvik H.; Faleide J.I.; Smelror M., 2004: Towards a better understanding of marine impact processes; what a potential drilling of the Mjolnir Crater (Barents Sea) has to offer. Abstracts of Papers Submitted to the Lunar and Planetary Science Conference 35: (unpaginated

Tsikalas F.; Faleide J.I., 2005: Post-impact deformation of impact craters; towards a better understanding through the study of Mjolnir Crater. Abstracts of Papers Submitted to the Lunar and Planetary Science Conference 36: (unpaginated