Numerical simulations of Chicxulub Crater formation by oblique impact

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http://www.hou.usra.edu/meetings/lpsc2017/pdf/1832.pdf
Author(s): Collins, G. S.; Patel, N.; Rae, A. S. P.; Davison, T. M.; Morgan, J. V.; Gulick, S.
International Ocean Discovery Program, Expedition 364 Scientists
Author Affiliation(s): Primary:
Imperial College London, Department of Earth Science and Engineering, London, United Kingdom
Other:
University of Texas at Austin, United States
Volume Title: 48th lunar and planetary science conference; abstracts
Source: Abstracts of Papers Submitted to the Lunar and Planetary Science Conference, Vol.48; 48th lunar and planetary science conference, The Woodlands, TX, March 20-24, 2017. Publisher: Lunar and Planetary Science Institute, Houston, TX, United States
Note: In English. 16 refs.; illus.
Year of Publication: 2017
Research Program: IODP2 International Ocean Discovery Program
Key Words: 23 Surficial Geology, Geomorphology; Atlantic Ocean; Chicxulub Crater; Collapse structures; Cratering; Depth; Expedition 364; Gulf of Mexico; ISALE; Impact craters; Impact features; Impact melts; Impacts; International Ocean Discovery Program; Mass movements; Melts; North Atlantic; Numerical models; Oblique orientation; Peak rings; Pressure; Ring structures; Sediments; Shock pressure; Shock waves; Simulation; Slumping; Symmetry; Three-dimensional models; Trajectories; Transient phenomena; Uplifts
Record ID: 2019038508
Copyright Information: GeoRef, Copyright 2019 American Geosciences Institute.

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