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      저자 : M. Colic (검색결과 2 건)
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      • Compensation of motion artifacts in catheter-based optical frequency domain imaging

        Ha, J. Y.,Shishkov, M.,Colice, M.,Oh, W. Y.,Yoo, H.,Liu, L.,Tearney, G. J.,Bouma, B. E. Optical Society of America 2010 Optics express Vol.18 No.11

        <P>A novel heterodyne Doppler interferometer method for compensating motion artifacts caused by cardiac motion in intracoronary optical frequency domain imaging (OFDI) is demonstrated. To track the relative motion of a catheter with regard to the vessel, a motion tracking system is incorporated with a standard OFDI system by using wavelength division multiplexing (WDM) techniques. Without affecting the imaging beam, dual WDM monochromatic beams are utilized for tracking the relative radial and longitudinal velocities of a catheter-based fiber probe. Our results demonstrate that tracking instantaneous velocity can be used to compensate for distortion in the images due to motion artifacts, thus leading to accurate reconstruction and volumetric measurements with catheter-based imaging.</P>

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        Microstructural Analyses of Two High Noble Gold-Platinum Alloys before and after Conditioning in a Cell Culture Medium

        R. Rudolf,I. Anzel,L. Gusel,D. Stamenkovic,A. Todorovic,M. Colic 대한금속·재료학회 2010 METALS AND MATERIALS International Vol.16 No.6

        Microstructures of two high noble experimental Au-Pt alloys were compared before and after conditioning for biocompatibility, in order to identify phases and microelements responsible for the alloys’ corrosive behaviour. Microstructural characterization was carried-out by optical and scanning electron microscopy, in addition to energy dispersive X-ray analysis. X-ray diffraction was applied to determine the phases’ composition and their contribution in the alloys. Additionally, simultaneous thermal analysis was used to identify the temperatures of phase transformations. An overall assessment before conditioning showed that Au-Pt I is a two-phase alloy containing a dominant Au-rich α1 phase and a minor Pt-rich α2 phase, while the Au-Pt II alloy contains in addition three minor phases: AuZn3, Pt3Zn and Au1.4Zn0.52. The highest content of Zn (up to 6.76 wt.%)was detected in the Pt3Zn phase. After RPMI cell culture medium conditioning, the Pt3Zn and AuZn3 phases disappeared, suggesting that they are predominantly responsible for Zn loss and the lower corrosive stability of the Au-Pt II alloy.

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