File:Rotational-manipulation-of-single-cells-and-organisms-using-acoustic-waves-ncomms11085-s3.ogv
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Rotational-manipulation-of-single-cells-and-organisms-using-acoustic-waves-ncomms11085-s3.ogv (Ogg Theora video file, length 9.1 s, 428 × 284 pixels, 491 kbps, file size: 545 KB)
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DescriptionRotational-manipulation-of-single-cells-and-organisms-using-acoustic-waves-ncomms11085-s3.ogv |
English: Supplementary Movie 2 Effect of radiation force and microstreaming on different size particles. 2, 5, 7, 10, and 15 μm polystyrene particles are exposed to a 70 μm wide microbubble excited at 70 kHz and 10 VPP (peak-to-peak). The particles away from the microbubble experience both acoustic radiation force and microstreaming force. For smaller particles, the acoustic streaming force is dominant over the radiation force, so the smaller particles follow the streaming flows. On the other hand, 15 μm particles are trapped by the microbubble even though they follow the streaming flow initially. |
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Source | Video file from Ahmed D, Ozcelik A, Bojanala N, Nama N, Upadhyay A, Chen Y, Hanna-Rose W, Huang T (2016). "Rotational manipulation of single cells and organisms using acoustic waves". Nature Communications. DOI:10.1038/ncomms11085. PMID 27004764. PMC: 4814581. | ||
Author | Ahmed D, Ozcelik A, Bojanala N, Nama N, Upadhyay A, Chen Y, Hanna-Rose W, Huang T | ||
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This file is licensed under the Creative Commons Attribution 4.0 International license.
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 15:03, 28 October 2016 | 9.1 s, 428 × 284 (545 KB) | Open Access Media Importer Bot (talk | contribs) | Automatically uploaded media file from Open Access source. Please report problems or suggestions here. |
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Short title | Supplementary Movie 2 |
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Author | Ahmed D, Ozcelik A, Bojanala N, Nama N, Upadhyay A, Chen Y, Hanna-Rose W, Huang T |
Usage terms | http://creativecommons.org/licenses/by/4.0/ |
Image title | Effect of radiation force and microstreaming on different size particles. 2, 5, 7, 10, and 15 μm polystyrene particles are exposed to a 70 μm wide microbubble excited at 70 kHz and 10 VPP (peak-to-peak). The particles away from the microbubble experience both acoustic radiation force and microstreaming force. For smaller particles, the acoustic streaming force is dominant over the radiation force, so the smaller particles follow the streaming flows. On the other hand, 15 μm particles are trapped by the microbubble even though they follow the streaming flow initially. |
Software used | Xiph.Org libtheora 1.1 20090822 (Thusnelda) |
Date and time of digitizing | 2016-03-23 |