Patterning of highly conducting polyaniline films
T. Graham, A. Afzali, et al.
Microlithography 2000
The matrix expression indicated in the title occurs in linear expansion methods for bound state or scattering solutions of Schrödinger's equation. A method of evaluation is described that is efficient and accurate for matrices h much larger than available random access memory in a computer. Expansion of the lower triangle of h or transposition is avoided and all matrix processing is sequential. The proposed method uses triangular decomposition of the Hermitian matrix, but avoids complex arithmetic unless the original matrix is complex. In comparison with direct use of Gaussian elimination for (h - ε{lunate})-1m the proposed method avoids an entire step of matrix processing. © 1971.
T. Graham, A. Afzali, et al.
Microlithography 2000
Elizabeth A. Sholler, Frederick M. Meyer, et al.
SPIE AeroSense 1997
Laxmi Parida, Pier F. Palamara, et al.
BMC Bioinformatics
Imran Nasim, Michael E. Henderson
Mathematics