- calculus (with Mathematica recitation), differential equations, linear algebra, real analysis, and advanced engineering mathematics for the undergraduate curriculum; independent study on continuum mechanics on manifolds for the undergraduate curriculum;
- advanced real analysis (from H.L. Royden, Real Analysis, Prentice Hall), functional analysis (from J.B. Conway, A Course in Functional Analysis, Springer), and advanced applied mathematics (from J.P. Keener, Principles of Applied Mathematics, Addison-Wesley); independent studies on microlocal analysis and symplectic geometry (from L. Hörmander, The Analysis of Linear Partial Differential Operators, Vols. 1 and 3, Springer), and on the theory of distributions (from L. Schwartz, Mathematics for Physical Sciences, Hermann) for the graduate curriculum;
- special topics: applied microlocal analysis (from own lecture notes), and applied inverse problems (from own lecture notes) for the graduate curriculum;
- advanced seismology for the graduate curriculum (in the Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge MA; from own lecture notes).