화학공학소재연구정보센터
Thin Solid Films, Vol.516, No.14, 4587-4592, 2008
Overview about the optical properties and mechanical stress of different dielectric thin films produced by reactive-low-voltage-ion-plating
Thin films of Ta(2)O(5), Nb(2)O(5), and HfO(2) were deposited by reactive-low-voltage-ion-plating (RLVIP) on unheated glass and silicon substrates. The film thickness was about 200 nm. Optical properties as well as mechanical film stress of these layers were investigated in dependence of various deposition parameters, i.e. arc current and oxygen partial pressure. For an arc current in the range between 40 and 50 A and an oxygen partial pressure of at least 11.10(-4) mbar good results were obtained. The refractive index and film thickness were calculated from spectrophotometric transmission data using the Swanepoel theory. For example at 550 nm wavelength the refractive index for thin RLVIP-Nb(2)O(5)-films was found to be n(550)=2.40. The optical absorption was obtained by photo-thermal deflection spectrometry. For the investigated materials absorption coefficients in the range of k = 5.10(-4) at 515 nm wavelength were measured. The mechanical film stress was determined by measuring the difference in bending of silicon substrates before and after the deposition process. For dense films, i.e. no water vapour sorption on atmosphere, the mechanical film stress was always compressive with values of some hundred MPa. In case of films deposited with higher arc currents (I(arc)> 60A) and lower oxygen pressure (< 15.10(-4) mbar) the influence of a post deposition heat treatment at 350 degrees C for 4 h on air was also investigated. For these films the properties could clearly be improved by such treatment. However, by using lower arc currents and higher oxygen partial pressure during the ion plating process, immediately dense and environmental stable films with good optical as well as mechanical properties could be achieved without post deposition heat treatment. All the results obtained will be presented in graphs and diagrams. (C) 2007 Elsevier B.V. All rights reserved.