93. Kagan, Y. Y., 2007. "Simplified algorithms for calculating double-couple rotation", Geophys. J. Int., 171(1), 411-418.

PDF file, 0.8 Mb.

Corrections, PS file

Postprint from UC eScholarship Repository.

Abstract from Blackwell synergy website

PS file, two-column format with corrections incorporated, 3.0 Mb.

PDF file, two-column format with corrections incorporated, 0.9 Mb.

PDF file, one-column format, as submitted, 0.8 Mb.

LaTeX file, occasionally updated.

Fig. 1 file, 13 Kb.

Fig. 2 file, color 510 Kb.

Fig. 3 file, color 180 Kb.

Fig. 3 file, b/w 180 Kb.

Fig. 4 file, color 1.4 Mb.

Fig. 5 file, color 0.2 Mb.

Fig. 5 file, b/w 0.2 Mb.

Fig. 6 file, color 50 Kb.

Fig. 7 file, 0.6 Mb.

Poster for 2007/9/10-13 SCEC annual meeting, 0.5 Mb.

FORTRAN programs for testing both quaternion technique and new procedures on pairs of individual focal mechanisms: DC3D2B.FOR; DC3D2C.FOR

FORTRAN programs for evaluation of rotation angles in the CMT catalog by both quaternion technique and new procedures on pairs of individual focal mechanisms: DC3D4C.FOR; DC3D4D.FOR

FORTRAN subroutines to include in some of the above programs

MATLAB program to plot octant equal-area projection (Figs. 2 and 4)

29. Kagan, Y. Y., 1991. 3-D rotation of double-couple earthquake sources, Geophys. J. Int., 106, 709-716 ;

81. Kagan, Y. Y., 2005. "Double-couple earthquake focal mechanism: Random rotation and display", Geophys. J. Int., 163(3), 1065-1072.

94. Kagan, Y. Y., 2009. "On the geometric complexity of earthquake focal zone and fault systems: A statistical study", Phys. Earth Planet. Inter., 173(3-4), 254-268, DOI: 10.1016/j.pepi.2009.01.006