Abstract
This article focuses on studying the coupled plasma, thermal, elastic waves of a semiconductor in context of photothermal transport process with cylindrical cavity under the influence of magnetic field subjected to memory-dependent Dual-phase lag heat equation. The surface of the cavity is subjected to exponentially decaying pulse and prescribed carrier density. Employing Laplace transform, the analytical results for distributions of the thermophysical quantities have been derived. The numerical inversion of the Laplace transform is carried out using Riemann-sum approximation technique. Significant differences on the thermophysical quantities are revealed due to the influence of magnetic field, memory effect and time-delay parameter. Communicated by Marat Z. Dosaev.
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