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Experimental observation of blood erythrocyte structure in the field of standing surface acoustic waves

Experimental observation of blood erythrocyte structure in the field of standing surface acoustic... Abstract The paper presents experimental results of observing the structurization effect for one of the formed elements of blood—erythrocytes—in the field of standing surface acoustic waves. Characteristic images of the striated structures formed by erythrocytes on the surface of lithium niobate as result of ultrasound action have been obtained. The results on the ultrasound structurization of erythrocytes in a blood sample and of calcium carbonate particles in an aqueous colloid solution have been comparatively analyzed. It has been noted that the achieved effect agrees qualitatively with the theoretical model of the behavior of colloid particle ensembles in an acoustic field developed by O.V. Rudenko et al. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Acoustical Physics Springer Journals

Experimental observation of blood erythrocyte structure in the field of standing surface acoustic waves

Makalkin, D. I.; Korshak, B. A.; Brysev, A. P.
Acoustical Physics , Volume 63 (5): 6 – Sep 1, 2017
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References (14)

Publisher
Springer Journals
Copyright
2017 Pleiades Publishing, Ltd.
ISSN
1063-7710
eISSN
1562-6865
DOI
10.1134/s106377101704008x
Publisher site
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Abstract

Abstract The paper presents experimental results of observing the structurization effect for one of the formed elements of blood—erythrocytes—in the field of standing surface acoustic waves. Characteristic images of the striated structures formed by erythrocytes on the surface of lithium niobate as result of ultrasound action have been obtained. The results on the ultrasound structurization of erythrocytes in a blood sample and of calcium carbonate particles in an aqueous colloid solution have been comparatively analyzed. It has been noted that the achieved effect agrees qualitatively with the theoretical model of the behavior of colloid particle ensembles in an acoustic field developed by O.V. Rudenko et al.

Journal

Acoustical PhysicsSpringer Journals

Published: Sep 1, 2017

Keywords: Acoustics

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