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Tilt corrections for normal mode observations on ocean bottom seismic data, an example from the PI-LAB experiment

Tilt corrections for normal mode observations on ocean bottom seismic data, an example from the PI-LAB experiment
Tilt corrections for normal mode observations on ocean bottom seismic data, an example from the PI-LAB experiment
Earth's normal modes are fundamental observations used in global seismic tomography to understand Earth structure. Land seismic station coverage is sufficient to constrain the broadest scale Earth structures. However, 70% of Earth's surface is covered by the oceans, hampering our ability to observe variations in local mode frequencies that contribute to imaging small-scale structures. Broadband ocean bottom seismometers can record spheroidal modes to fill in gaps in global data coverage. Ocean bottom recordings are contaminated by signals from complex interactions between ocean and solid Earth dynamics at normal mode frequencies. We present a method for correcting tilt on broadband ocean bottom seismometers by rotation. The correction improves the ability of some instruments to observe spheroidal modes down to 0S4. We demonstrate this method using 15 broadband ocean bottom seismometers from the PI-LAB array. We measure normal mode peak frequency shifts and compare with 1-D reference mode frequencies and predictions from 3-D global models. Our measurements agree with the 3-D models for modes between 0S14 - 0S37 with small but significant differences. These differences likely reflect real Earth structure. This suggests incorporating ocean bottom normal mode measurements into global inversions will improve models of global seismic velocity structure.
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
Laske, Gabi
2a174d97-f878-485a-b2af-7d3e5e6f4aaa
Crawford, Wayne
0012bad7-8af0-4913-9a91-e96cb2647312
Rychert, Catherine
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
Laske, Gabi
2a174d97-f878-485a-b2af-7d3e5e6f4aaa
Crawford, Wayne
0012bad7-8af0-4913-9a91-e96cb2647312
Rychert, Catherine
70cf1e3a-58ea-455a-918a-1d570c5e53c5

Harmon, Nicholas, Laske, Gabi, Crawford, Wayne and Rychert, Catherine (2022) Tilt corrections for normal mode observations on ocean bottom seismic data, an example from the PI-LAB experiment. Seismica, 1 (1). (doi:10.26443/seismica.v1i1.196).

Record type: Article

Abstract

Earth's normal modes are fundamental observations used in global seismic tomography to understand Earth structure. Land seismic station coverage is sufficient to constrain the broadest scale Earth structures. However, 70% of Earth's surface is covered by the oceans, hampering our ability to observe variations in local mode frequencies that contribute to imaging small-scale structures. Broadband ocean bottom seismometers can record spheroidal modes to fill in gaps in global data coverage. Ocean bottom recordings are contaminated by signals from complex interactions between ocean and solid Earth dynamics at normal mode frequencies. We present a method for correcting tilt on broadband ocean bottom seismometers by rotation. The correction improves the ability of some instruments to observe spheroidal modes down to 0S4. We demonstrate this method using 15 broadband ocean bottom seismometers from the PI-LAB array. We measure normal mode peak frequency shifts and compare with 1-D reference mode frequencies and predictions from 3-D global models. Our measurements agree with the 3-D models for modes between 0S14 - 0S37 with small but significant differences. These differences likely reflect real Earth structure. This suggests incorporating ocean bottom normal mode measurements into global inversions will improve models of global seismic velocity structure.

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Accepted/In Press date: 16 September 2022
Published date: 2 November 2022

Identifiers

Local EPrints ID: 472265
URI: http://eprints.soton.ac.uk/id/eprint/472265
DOI: doi:10.26443/seismica.v1i1.196
PURE UUID: 8ae83d42-c52a-4c62-ac12-dc94e45a81eb
ORCID for Nicholas Harmon: ORCID iD orcid.org/0000-0002-0731-768X

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Date deposited: 30 Nov 2022 17:41
Last modified: 17 Mar 2024 03:18

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Contributors

Author: Nicholas Harmon ORCID iD
Author: Gabi Laske
Author: Wayne Crawford
Author: Catherine Rychert

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