Data from: Identification of weakly- to strongly-turbulent three-wave processes in a micro-scale system
Supplementary information

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Description | Background information covering methods used/referenced in the journal article |
Capillary wave analysis tools
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Description | Functions written in Python for analysis tools used in the journal article |
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Surface data, 0mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 0 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.43 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 0 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 7mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 7 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.43 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 7 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 12.5 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 12.5 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 12.5 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 15.5 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 15.5 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 15.5 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 18.5 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 18.5 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 18.5 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 21.5 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 21.5 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 21.5 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 24.3 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 24.3 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 24.3 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 26 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 26 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 26 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 28 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 28 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 28 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 36 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 36 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 36 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 41 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 41 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 41 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 46 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 46 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 46 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 54 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 54 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
File Size |
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 54 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 80 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 80 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 80 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 106 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 106 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 106 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 125 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 125 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 125 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 146 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 146 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.86 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 146 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 192 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 192 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 192 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 250 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 250 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
File Size |
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 250 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 300 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 300 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
File Size |
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File Format |
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 300 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
Surface data, 350 mW
Parameters and sample data
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Description | Experiment parameters, image sequence timestamps, central pixel time series, and a sample of the surface data (0.00-0.05 s) for ultrasound input power level 350 mW. |
Scope And Content | Center pixel time series is a single-column csv. Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
All data (0.00-0.87 s)
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Description | 3D data of height of water surface at center of 40uL sessile drop for ultrasound input power level 350 mW. |
Scope And Content | Surface data is an hdf5 file (see readme for more info) with metadata and image frames for each time step. The image frame is a 2D matrix of real values corresponding to surface height. |
- Collection
- Cite This Work
-
Orosco, Jeremy; Connacher, William; Friend, James (2023). Data from: Identification of weakly- to strongly-turbulent three-wave processes in a micro-scale system. UC San Diego Library Digital Collections. https://doi.org/10.6075/J0WW7HVJ
- Description
-
These data represent capillary waves, where each frame contains a surface in 3D space. We placed 40 uL of DI water on a lithium niobate (piezoelectric) thickness mode transducer within a 3/8" circular boundary created by one layer of polyimide tape. Then we supplied a sinusoidal voltage signal to the transducer and recorded holograms of a ~300um square field of view using a digital holographic microscope (LynceeTec) coupled to an ultra high speed camera (Photron). The frequency of the signal was set to the resonance of the transducer, 7 MHz, and the input power (as measured via current and voltage probes on an oscilloscope) was set to a value in the range 0-350 mW for a total of 21 separate data sets (indicated by their set power). Each surface data set is supplied in 18 segments (to facilitate download) and for each data set there is also a comma separated value document containing the time series of the central pixel. Further details are available in the readme and the supplemental information document of the corresponding publication.
- Date Collected
- 2021-11-28 to 2022-01-18
- Date Issued
- 2023
- Authors
- Principal Investigator
- Note
-
Software copyright: 2022 Jeremy Orosco
Software license: Software Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License (https://creativecommons.org/licenses/by-nc-sa/4.0/)
Data copyright: UC Regents
Data license: Creative Commons Attribution 4.0 International Public License (https://creativecommons.org/licenses/by/4.0/) - Funding
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W. M. Keck Foundation, Office of Naval Research, University of California President’s Postdoctoral Fellowship award
- Topics
Formats
View formats within this collection
- Language
- English
- Identifier
-
Identifier: James Friend: https://orcid.org/0000-0003-0416-2165
Identifier: Jeremy Orosco: https://orcid.org/0000-0003-4433-5155
Identifier: William Connacher: https://orcid.org/0000-0003-2336-2728
- Related Resource
- J. Orosco, W. Connacher, J. Friend (2023). Identification of weakly to strongly-turbulent three-wave processes in a micro-scale system. Chaos, Solitons & Fractals, Volume 172. https://doi.org/10.1016/j.chaos.2023.113615
- Jeremy Orosco, William Connacher, James Friend (2022). Identification of weakly- to strongly-turbulent three-wave processes in a micro-scale system. arXiv. https://doi.org/10.48550/arXiv.2205.01803
Primary associated publication
- License
-
Creative Commons Attribution 4.0 International Public License
- Rights Holder
- UC Regents
- Copyright
-
Under copyright (US)
Use: This work is available from the UC San Diego Library. This digital copy of the work is intended to support research, teaching, and private study.
Constraint(s) on Use: This work is protected by the U.S. Copyright Law (Title 17, U.S.C.). Use of this work beyond that allowed by "fair use" or any license applied to this work requires written permission of the copyright holder(s). Responsibility for obtaining permissions and any use and distribution of this work rests exclusively with the user and not the UC San Diego Library. Inquiries can be made to the UC San Diego Library program having custody of the work.
- Digital Object Made Available By
-
Research Data Curation Program, UC San Diego, La Jolla, 92093-0175 (https://lib.ucsd.edu/rdcp)
- Last Modified
2023-06-07