Enhancing the mechanical surface strength of “soft” materials for the UV and IR ranges and increasing their transmission spectrum: Model MgF2-nanotube system

Каманина Н.В., Богданов К.Ю., Васильев П.Я., Студенов В.И. Повышение поверхностной механической прочности "мягких" материалов УФ и ИК диапазонов спектра и увеличение их спектра пропускания: модельная система MgF2-нанотрубки // Оптический журнал. 2010. Т. 77. № 2. С. 84–86.

Kamanina N.V., Bogdanov K.Yu., Vasiliev P.Ya., Studenov V.I. Enhancing the mechanical surface strength of “soft” materials for the UV and IR ranges and increasing their transmission spectrum: Model MgF2-nanotube system [in Russian] // Opticheskii Zhurnal. 2010. V. 77. № 2. P. 84–86.

N. V. Kamanina, P. Ya. Vasil’ev, V. I. Studenov, and K. Yu. Bogdanov, "Enhancing the mechanical surface strength of “soft” materials for the UV and IR ranges and increasing their transmission spectrum: Model MgF₂-nanotube system," Journal of Optical Technology. 77(2), 145-147 (2010). https://doi.org/10.1364/JOT.77.000145

Using the magnesium-fluoride-single-walled-nanotube model system as an example, the strength and spectral features of the indicated structure are briefly considered for laser deposition of carbon nanotubes oriented in a 100-200-W/cm electric field. The calculated result is given for the ratio of the forces needed to bend a carbon nanotube and to detach it from the surface when it is covalently bonded to a matrix substrate. The spectral changes of the modified structure at a wavelength of 126nm are shown.