Nano- and femtosecond high-repetition-rate multipulse laser irradiation of dehydrated bone tissue: role of accumulated heat and model of cooling

“…It is the initial temperature by the arrival of the next pulse in the region of the laser spot, and it is decisive in changing the surface morphology at the periphery, where laser radiation does not reach. In the experiment at pulse repetition rates below 15 kHz the morphology of bone surface is not changed [30], which is typical for small values of the residual temperature obtained in the calculation.…”

“…The model object is considered as the quasi-homogeneous medium with averaged values of thermophysical and optical characteristics. The obtained spatial distributions of accumulated heat on the surface of model object as a function of the pulse repetition rate are compared with the data of experimental irradiation of model object conducted by the authors and given in [30], as well as the experimental data presented in [18]. As will be shown in this paper, the model is applicable for nanosecond and femtosecond laser pulses.…”

“…It was found that at the repetition rate of 15 kHz the ablation crater is formed, surrounded by the larger areas of melted and carbonized tissue, at the sixth second of irradiation [30] (Fig. 4(a)).…”

Modelling of the heat accumulation process during short and ultrashort pulsed laser irradiation of bone tissue

“…It is the initial temperature by the arrival of the next pulse in the region of the laser spot, and it is decisive in changing the surface morphology at the periphery, where laser radiation does not reach. In the experiment at pulse repetition rates below 15 kHz the morphology of bone surface is not changed [30], which is typical for small values of the residual temperature obtained in the calculation.…”

“…The model object is considered as the quasi-homogeneous medium with averaged values of thermophysical and optical characteristics. The obtained spatial distributions of accumulated heat on the surface of model object as a function of the pulse repetition rate are compared with the data of experimental irradiation of model object conducted by the authors and given in [30], as well as the experimental data presented in [18]. As will be shown in this paper, the model is applicable for nanosecond and femtosecond laser pulses.…”

“…It was found that at the repetition rate of 15 kHz the ablation crater is formed, surrounded by the larger areas of melted and carbonized tissue, at the sixth second of irradiation [30] (Fig. 4(a)).…”

Modelling of the heat accumulation process during short and ultrashort pulsed laser irradiation of bone tissue

Study on the effect of air flow/electric field cooling on femtosecond laser bone ablation

Analytical 3D modeling of accumulative heating under multipulse laser irradiation of inorganic materials and biological tissues