@article{oai:nagoya.repo.nii.ac.jp:00030714,
 author = {Sugimura, Tadayoshi and Fujiwara, Toshitaka and Lee, John H.},
 issue = {2},
 journal = {Memoirs of the Faculty of Engineering, Nagoya University},
 month = {Mar},
 note = {The instability and irregularity of multi-dimensional detonations, experimentally observed for a long time, are studied numerically. By increasing computational resolution significantly the computed results are able to reproduce most of the salient experimental features like inherent instability of a plane ZND detonation, irregular triple-shock structures seen in self-sustaining detonations and very fine triple-shock structures superimposed in a macroscopic triple-shock configuration. Different-strength perturbations are also applied to (i) a ChapmanJouguet and (ii) well-developed multi-dimensional detonations, using different grid resolutions; confirming decoupling of the former and self-sustenance of the latter. Although the effect of resolution on the essential features of a detonation is observed, there seems to be a critical resolution above which most of the experimentally-observed important phenomena are maintained in the numerical simulation.},
 pages = {360--373},
 title = {Cellular detonation-instability and sub-structure},
 volume = {42},
 year = {1991}
}