Determination of temperature dependence of platinum absorptivity via surface electromagnetic wave attenuation measuring

Determination of temperature dependence of platinum absorptivity via surface electromagnetic wave attenuation measuring

Measurements of surface electromagnetic wave (SEW) attenuation coefficient alpha dependence from temperature T for platinum have been made. The SEW excitation was produced by CO 2 laser radiation ( lambda = 10.6 mum) on diffraction grating, when first, diffraction order propagation direction was alo...

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Bibliographic Details
Published in:Proceedings of the International Conference Days on Diffraction-2005 pp. 172 - 176
Main Authors: Makin, V.S., Pestov, Yu.I., Kolins, P.
Format: Conference Proceeding
Language:English
Published: IEEE 2005
Subjects:
Attenuation measurement
Diffraction gratings
Electromagnetic diffraction
Electromagnetic measurements
Electromagnetic scattering
Laser excitation
Optical attenuators
Platinum
Surface waves
Temperature dependence
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Summary:Measurements of surface electromagnetic wave (SEW) attenuation coefficient alpha dependence from temperature T for platinum have been made. The SEW excitation was produced by CO 2 laser radiation ( lambda = 10.6 mum) on diffraction grating, when first, diffraction order propagation direction was along the platinum mirror surface. In the temperature range 20-100 degC the attenuation coefficient derivative beta = dalpha/dT = (18plusmn2)times10 -4 cm -10 C -1 was obtained. From these measurements the platinum absorptivity A temperature derivative dA/dT = 2.7times10 -50 C -1 was obtained. Together with SEW excitation an excitation of near surface bulk wave (NSBW), propagating from diffraction grating at the grazing angle 2.5deg to mirror surface, was observed. It was shown that the NSBW was caused by laser radiation divergence
ISBN:5965101406
9785965101405
DOI:10.1109/DD.2005.204891