Litcius/Paper detail

Plane wave in non-local semiconducting rotating media with Hall effect and three-phase lag fractional order heat transfer

Iqbal Kaur, Kulvinder Singh

2021International Journal of Mechanical and Materials Engineering24 citationsDOIOpen Access PDF

Abstract

Abstract This paper deals with the propagation of the plane wave in a nonlocal magneto-thermoelastic semiconductor solid with rotation. The fractional-order three-phase lag theory of thermoelasticity with two temperatures has been applied. When a longitudinal wave is incident on the surface z = 0, four types of reflected coupled longitudinal waves (the coupled longitudinal displacement wave, the coupled thermal wave, coupled carrier density wave, and coupled transverse displacement wave) are identified. The plane wave characteristics such as phase velocities, specific loss, attenuation coefficient, and penetration depth of various reflected waves are computed. The effects of two temperatures, non-local parameter, fractional order parameter, and Hall current on these wave characteristics are illustrated graphically with the use of MATLAB software.

Topics & Concepts

Plane waveLongitudinal waveThermoelastic dampingPhysicsAttenuationSurface waveWave propagationMechanicsTransverse wavePhase velocityParticle displacementTransverse planeOpticsThermalAmplitudeThermodynamicsEngineeringStructural engineeringThermoelastic and Magnetoelastic PhenomenaNumerical methods in engineeringComposite Structure Analysis and Optimization