Profiling Laser-Induced Temperature Fields for Superconducting Materials Using Mathematical Experimentation
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AIAA
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The equations of energy balance and heat conductivity are queried by introducing known parameters using virtual
mathematical experimentation. Distribution of temperature by layers in depth for samples of superconducting
material is obtained under different conditions. The structural defect at different state-liquid and solid was analyzed.
The theoretical model generated was validated by experimental data. The temperature distribution under the
irradiating laser intensity (0.45 W) shows an effective decay rate probability density function that is peculiar to the
concept of photoluminescence.
Keywords
QC Physics