- Bridging the Terahertz Gap
- Modeling the Lithium-Ion Battery
- Protection contre la Corrosion
- Modélisation des batteries
- Modélisation et Simulation dans le développement des piles à combustible
- Modélisation thermique des petits satellites
- Analyse électro-vibroacoustique d'un transducteur à armature équilibrée
Simulation of Heating Sol-Gel Thin Film By Laser Pulse Train
Simulation of laser pulse-train (25ns, 60 kHz and 3000 pulses) heating Sol-Gel thin film using COMSOL Multiphysics software is investigated. The results show two kinds of temperatures formed on film surface by laser pulse-train heating. One is a single pulse induced transient peak-temperature, which is up to ~1635oC on both Si and glass substrates. The other is the accumulated-temperature generated by accumulating residual-temperature at the end of each pulse period, which is up to ~75oC on Si and ~500oC on glass substrates, respectively. The peak-temperature only depends on the laser intensity. However, the accumulated-temperature not only depends on the laser intensity, but also the pulse repetition rate and the thermal properties of the substrate in particular.

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