The thermodynamical interaction in a two-dimensional micropolar generalized thermoelastic medium with an electromagnetic field have been examined in this work. The main purpose of the current paper is to establish a mathematical novel model in the micropolar theory of generalized thermoelasticity under the framework of photothermal theory. For the required problem solution, we obtained analytical equations for quantities, such as displacement components, temperature field, thermal stresses, carrier density, and couple stress by using the normal mode technique after applying Lame’s potential. MATHEMATICA software has been considered to make graphically display several physical parameters, displacement components, stresses and coupling stress components, including carrier density, and temperature distribution. The comparison of our results for the accuracy of physical quantities with previous research work is carried out graphically. A comparison is made by the previous works neglecting the new external parameters that indicated to the new external parameters strong impact for on the phenomenon of generalized thermoelasticity with electro-magneto-photothermelasticity.
Abo-Dahab et al. (Wed,) studied this question.