The optical volume scattering function in a surf zone inverted to derive sediment and bubble particle subpopulations
The optical volume scattering function in a surf zone inverted to derive sediment and bubble particle subpopulations
were investigated in the surf zone off Scripps Pier as part of an ongoing effort to better understand the underlying dynamics in the VSF in the subsurface ocean. VSFs were measured at 20 Hz at angles spanning 10°–170° in 10° increments with a device called the Multiangle Scattering Optical Tool (MASCOT). Modification of the phase function was observed in passing suspended sediment plumes, wave-injected bubble plumes, and combinations of these particle populations relative to the background. Phase function enhancement in the 60°–80° range was observed in association with bubble plumes, consistent with theoretical predictions. VSFs were inverted to infer size distributions and composition using a least squares minimization fitting procedure applied to a library of phase functions, each representing a lognormally distributed subpopulation with refractive index and coating, where applicable. Phase functions representative of nonspherical mineral particle subpopulations were computed using discrete dipole approximation (DDA) and improved geometric optics method (IGOM) techniques for randomly oriented, asymmetric hexahedra. Phase functions for coated bubbles were computed with the Lorenz-Mie theory. Inversion results exhibited stable solutions that qualitatively agreed with concurrent acoustical measurements of bubbles, aggregate particle size distribution expectations, and anecdotal videography evidence from the field. Although a comparable inversion with a library that assumed spherical shaped particles alone provided less stable results with some incorrectly assigned subpopulations, several dominant subpopulation trends were consistent with the results obtained using nonspherical representations of mineral particles.
C00H17
Twardowski, Michael
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Zhang, Xiaodong
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Vagle, Svein
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Sullivan, James
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Freeman, Scott
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Czerski, Helen
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You, Yu
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Bi, Lei
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Kattawar, George
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2012
Twardowski, Michael
2d9d69fc-c0b1-4a43-9025-68d7ce8c4ce5
Zhang, Xiaodong
14e4df91-ea53-4969-839a-08138e3c1641
Vagle, Svein
6954155f-51a2-4acf-9a5a-15cff574e910
Sullivan, James
4b06f5e8-d132-4c56-ad1f-c4375669fd62
Freeman, Scott
d1c3b1d5-26a8-4c56-b9a0-287602fae018
Czerski, Helen
8704500e-b00f-41c0-bfa3-b5f08e7e39d6
You, Yu
89278d17-3f36-455f-a619-8d86e7ae4288
Bi, Lei
a77337ea-b07b-4656-8233-c056d0b46739
Kattawar, George
bc43ad65-44ac-400f-b63f-f14b9e4637bf
Twardowski, Michael, Zhang, Xiaodong, Vagle, Svein, Sullivan, James, Freeman, Scott, Czerski, Helen, You, Yu, Bi, Lei and Kattawar, George
(2012)
The optical volume scattering function in a surf zone inverted to derive sediment and bubble particle subpopulations.
Journal of Geophysical Research, 117, .
(doi:10.1029/2011JC007347).
Abstract
were investigated in the surf zone off Scripps Pier as part of an ongoing effort to better understand the underlying dynamics in the VSF in the subsurface ocean. VSFs were measured at 20 Hz at angles spanning 10°–170° in 10° increments with a device called the Multiangle Scattering Optical Tool (MASCOT). Modification of the phase function was observed in passing suspended sediment plumes, wave-injected bubble plumes, and combinations of these particle populations relative to the background. Phase function enhancement in the 60°–80° range was observed in association with bubble plumes, consistent with theoretical predictions. VSFs were inverted to infer size distributions and composition using a least squares minimization fitting procedure applied to a library of phase functions, each representing a lognormally distributed subpopulation with refractive index and coating, where applicable. Phase functions representative of nonspherical mineral particle subpopulations were computed using discrete dipole approximation (DDA) and improved geometric optics method (IGOM) techniques for randomly oriented, asymmetric hexahedra. Phase functions for coated bubbles were computed with the Lorenz-Mie theory. Inversion results exhibited stable solutions that qualitatively agreed with concurrent acoustical measurements of bubbles, aggregate particle size distribution expectations, and anecdotal videography evidence from the field. Although a comparable inversion with a library that assumed spherical shaped particles alone provided less stable results with some incorrectly assigned subpopulations, several dominant subpopulation trends were consistent with the results obtained using nonspherical representations of mineral particles.
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Published date: 2012
Organisations:
Geology & Geophysics, Inst. Sound & Vibration Research
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Local EPrints ID: 342627
URI: http://eprints.soton.ac.uk/id/eprint/342627
ISSN: 0148-0227
PURE UUID: e001a2cc-99d9-411a-a373-e549718907a4
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Date deposited: 10 Sep 2012 14:34
Last modified: 14 Mar 2024 11:54
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Author:
Michael Twardowski
Author:
Xiaodong Zhang
Author:
Svein Vagle
Author:
James Sullivan
Author:
Scott Freeman
Author:
Helen Czerski
Author:
Yu You
Author:
Lei Bi
Author:
George Kattawar
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