The present work reports the theoretical background and the capabilities of SEISMIC, a Python code specifically developed to calculate the propagation of the sound waves inside crystalline materials. SEISMIC is a tool integrated in the QUANTAS package and provides a series of useful information for engineers and geophysicists, such as the phase and group velocities, the power flow angle, the enhancement factors, and the polarization vectors, using as input the elastic moduli and the density of the material. Numerical treatments of the derivatives were avoided, using analytical methods to obtain numerically stable results. The code relies only on Python numerical and graphical libraries to ensure a full cross-platform usability.
SEISMIC, a Python-based code of the Quantas package to calculate the phase and group acoustic velocities in crystals / Ulian, Gianfranco; Valdre, Giovanni. - In: COMPUTERS & GEOSCIENCES. - ISSN 0098-3004. - STAMPA. - 188:(2024), pp. 105615.1-105615.8. [10.1016/j.cageo.2024.105615]
SEISMIC, a Python-based code of the Quantas package to calculate the phase and group acoustic velocities in crystals
Ulian, Gianfranco
Primo
;Valdre, Giovanni
Ultimo
2024
Abstract
The present work reports the theoretical background and the capabilities of SEISMIC, a Python code specifically developed to calculate the propagation of the sound waves inside crystalline materials. SEISMIC is a tool integrated in the QUANTAS package and provides a series of useful information for engineers and geophysicists, such as the phase and group velocities, the power flow angle, the enhancement factors, and the polarization vectors, using as input the elastic moduli and the density of the material. Numerical treatments of the derivatives were avoided, using analytical methods to obtain numerically stable results. The code relies only on Python numerical and graphical libraries to ensure a full cross-platform usability.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
