File:Rotational-manipulation-of-single-cells-and-organisms-using-acoustic-waves-ncomms11085-s5.ogv
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Rotational-manipulation-of-single-cells-and-organisms-using-acoustic-waves-ncomms11085-s5.ogv (Ogg Theora video file, length 8.4 s, 278 × 248 pixels, 388 kbps, file size: 396 KB)
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DescriptionRotational-manipulation-of-single-cells-and-organisms-using-acoustic-waves-ncomms11085-s5.ogv |
English: Supplementary Movie 4 Acoustic radiation force acting on a C. elegans. A smaller bubble is excited at 90 kHz and 20 VPP (peak-to-peak) in order to pull a C. elegans towards the microchannel wall close to the side-wall grove using the acoustic radiation force. Trapped bubble size can be adjusted by controlling the pressure inside the microchannel. A smaller bubble that is not protruding out from the sidewall grove is advantageous to demonstrate bubble-worm attraction without direct contact between the bubble and the worm. The movie is captured at 1,000 fps (stored by skipping every 4 frames) and is played at 30 fps. |
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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 | 8.4 s, 278 × 248 (396 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 4 |
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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 | Acoustic radiation force acting on a C. elegans. A smaller bubble is excited at 90 kHz and 20 VPP (peak-to-peak) in order to pull a C. elegans towards the microchannel wall close to the side-wall grove using the acoustic radiation force. Trapped bubble size can be adjusted by controlling the pressure inside the microchannel. A smaller bubble that is not protruding out from the sidewall grove is advantageous to demonstrate bubble-worm attraction without direct contact between the bubble and the worm. The movie is captured at 1,000 fps (stored by skipping every 4 frames) and is played at 30 fps. |
Software used | Xiph.Org libtheora 1.1 20090822 (Thusnelda) |
Date and time of digitizing | 2016-03-23 |