Optothermal properties of a converter of laser radiation to the radiation of a high-temperature point source

“…The total thickness of the system was approximately 1 mm, with SAC deposited at the tip. A mixture of microparticles of graphite powder and organosilicon varnish was used as an absorbing coating [11,12]. The absorption coefficient of the coating was measured to be 1200 cm −1 .…”

“…An OceanOptics HL2000 calibration lamp was used to calibrate the spectrometer over a wide range of absolute sensitivities. Mathematical conversion of the spectral characteristics to temperature was performed using the Planck formula by the algorithm of the two-color method, which consists of solving the equation for two different wavelengths [12,13]. The most optimal range was the visible wavelength range of 600-750 nm.…”

“…SAC was prepared according to the procedure described elsewhere [11,12]. For each series of measurements, the fiber was cleaved, and a new initial coating was deposited.…”

Investigation of the Effect of Temperature Stabilization in Radiation–Heat Converters Based on a Strong Absorbing Coating

“…The total thickness of the system was approximately 1 mm, with SAC deposited at the tip. A mixture of microparticles of graphite powder and organosilicon varnish was used as an absorbing coating [11,12]. The absorption coefficient of the coating was measured to be 1200 cm −1 .…”

“…An OceanOptics HL2000 calibration lamp was used to calibrate the spectrometer over a wide range of absolute sensitivities. Mathematical conversion of the spectral characteristics to temperature was performed using the Planck formula by the algorithm of the two-color method, which consists of solving the equation for two different wavelengths [12,13]. The most optimal range was the visible wavelength range of 600-750 nm.…”

“…SAC was prepared according to the procedure described elsewhere [11,12]. For each series of measurements, the fiber was cleaved, and a new initial coating was deposited.…”

Investigation of the Effect of Temperature Stabilization in Radiation–Heat Converters Based on a Strong Absorbing Coating

“…Графики температурных профилей, соответствующие значениям черноты наконечника, равным 0, 0. Роль карбонизированного наконечника оптоволокна в повышении эффективности лазерной термотерапии отмечается многими авторами [11][12][13][14][18][19][20][21][22][23]. Карбонизация может быть как естественной, т. е. результатом взаимодействия лазерного излучения с биологической средой [11,18], так и искусственной, как результат контактного лазерного воздействия с различными материалами, например, с деревом [19,21], с активированным углем [20,21], со смесью графита и силиконового лакатехнология SAC (strongly absorbing coating) [23].…”

“…Карбонизация при контакте с деревом обеспечивает черноту от 0.1 до 0.2 [19]. Карбонизированный слой, получаемый с помощью технологии SAC, характеризуется чернотой в диапазоне от 0.3 до 0.5 [23]. Использование титаносодержащего конвертера с объемной долей диоксида титана 0.22 обеспечивает черноту наконечника 0.84 при длине волны 980 nm [22].…”

Оптимальное Управление Внутривенной Лазерной Абляцией

Optimal Control of Endovenous Laser Ablation