期刊
FRONTIERS IN PHYSICS
卷 9, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fphy.2021.671137
关键词
metallic thin films; optical constants; dielectric constants; skin depth; optical conductivity; Kramers-Kronig technique; Maxwell-Garnett approximation; pseudo-Brewster angle technique
资金
- Indian Space Research Organisation (ISRO) [STC/PHY/2019433]
- Department of Science and Technology (DST-SERB), Government of India [EMR/2016/006235]
- Council of Scientific and Industrial Research (CSIR), India [09/092 (0954)/2016-EMR-I]
This article investigates the irradiation effects of low energy Argon ion beams on the optical constants of copper, silver, and aluminum metallic thin films. It shows that with increasing ion fluence, the optical constants and optical conductivity of the films decrease while the skin depth increases.
The article presents the irradiation effects of low energy (similar to 0.5 keV) inert gaseous Argon ion beams on optical constants [real (n) and imaginary (k) parts of the refractive index], dielectric constants, skin depth, and optical conductivity of copper (Cu), silver (Ag), and aluminum (Al) metallic thin films (MTF). The optical constants of pristine MTF are obtained by employing the universal Kramers-Kronig (KK) technique. The reflectivity of pristine MTF measured using UV-VIS-NIR spectrophotometry is used as an input parameter in the KK technique to determine the optical constants as a function of energy [or wavelength (lambda)] of incident light ranging between similar to 1-4.96 eV (or 250-1,200 nm). For the irradiated MTF, the optical constants including the skin depth (delta = lambda/2 pi k), optical conductivity (sigma = nkc/lambda), and dielectric constants (epsilon(1) = n(2) - k(2) and epsilon(2) = 2nk) with varying ion fluence have been investigated by implementing the Maxwell-Garnett (MG) approximation, used to determine the effective dielectric constants of a random mixture of two different mediums. Additionally, n and k obtained from MG approximation have been compared with those obtained using the pseudo- Brewster angle technique for four different laser wavelengths (405, 532, 632.8 and 670 nm) and are found to be in good agreement with each other. It is observed that the optical constants and optical conductivity of the MTF decrease with increase in ion beam fluence, while the skin depth increases. Besides the optical constants, the behavior of skin depth, dielectric constants, and optical conductivity of the irradiated MTF with varying fluence are discussed in this article.
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