by Hristina Delibaši, Violeta Petrovi, Ivan Petrovi, Carlos Molpeceres and Sara Lauzurica
Abstract:
A numerical analysis is performed to investigate the comparative contribution of the mechanisms responsible for electron gain and losses in laser-induced breakdown of the skin and underlying tissues. In this regard we adopted a simple theoretical formulation relying on the numerical solution of a rate equation that describes the growth of the electron density due to the joined effect of multiphoton, cascade and chromophore ionization processes. Here, the rate also includes the effect of electron loss due to diffusion and recombination processes. The analysis considered skin tissue irradiated by a Nd:YAG laser radiation in the 200 – 550 nm wavelength range with 6 ns pulse duration full-width halfmaximum (FWHM).
Reference:
Hristina Delibaši, Violeta Petrovi, Ivan Petrovi, Carlos Molpeceres and Sara Lauzurica, “Numerical investigation of the plasma formation in skin tissue by nanosecond Nd: Yag Laser pulse”, pp. 4, 2020.
Bibtex Entry:
@article{delibasi_numerical_2020,
	title = {Numerical investigation of the plasma formation in skin tissue by nanosecond {Nd}: {Yag} {Laser} pulse},
	url = {http://publications.aob.rs/99/pdf/113-116.pdf},
	abstract = {A numerical analysis is performed to investigate the comparative contribution of the mechanisms responsible for electron gain and losses in laser-induced breakdown of the skin and underlying tissues. In this regard we adopted a simple theoretical formulation relying on the numerical solution of a rate equation that describes the growth of the electron density due to the joined effect of multiphoton, cascade and chromophore ionization processes. Here, the rate also includes the effect of electron loss due to diffusion and recombination processes. The analysis considered skin tissue irradiated by a Nd:YAG laser radiation in the 200 – 550 nm wavelength range with 6 ns pulse duration full-width halfmaximum (FWHM).},
	language = {en},
	author = {Delibaši, Hristina and Petrovi, Violeta and Petrovi, Ivan and Molpeceres, Carlos and Lauzurica, Sara},
	year = {2020},
	pages = {4},
	file = {Delibaši et al. - NUMERICAL INVESTIGATION OF THE PLASMA FORMATION IN.pdf:C:\Users\abm50\Zotero\storage\SHEF5CWM\Delibaši et al. - NUMERICAL INVESTIGATION OF THE PLASMA FORMATION IN.pdf:application/pdf}
}