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A wide-angle high Mach number modal expansion for infrasound propagation
by J.D. Assink (KNMI), R. Waxler (University of Mississippi, MS, USA), D. Velea (Leidos Corporation, USA),
The use of modal expansions to solve the problem of atmospheric infrasound propagation is revisited. A different form of the associated modal equation is
introduced, valid for wide-angle propagation in atmospheres with high Mach number flow. The modal equation can be formulated as a quadratic eigenvalue problem for which there are simple and efficient numerical implementations. A perturbation expansion for the treatment of attenuation, valid for stratified media with background flow, is derived as well. Comparisons are carried out between the proposed algorithm and a modal algorithm assuming an effective sound speed, including a real data case study. The comparisons show that the effective sound speed approximation overestimates the effect of horizontal wind on sound propagation, leading to errors in traveltime, propagation path, trace velocity and absorption. The error is found to be dependent on propagation angle and Mach number.
|Assink, J.D., R. Waxler and D. Velea, A wide-angle high Mach number modal expansion for infrasound propagation Abstract (html) |