Post on 07-Aug-2020
What changes when we use ambient noise recorded by fiber optics?
Eileen Martin1,2, Nate Lindsey3,2, Biondo Biondi3, Jonathan Ajo-Franklin4,2, Tieyuan Zhu5
1. Virginia Tech 2. Lawrence Berkley Lab 3. Stanford University 4. Rice University 5. Pennsylvania State University
1© authors. All rights reserved.
Part 1: If an array passively records a particular source, how should it look on different parts of the array?
Part 2: For any pair of receivers in the array, what should their cross-correlations look like?
Examples of Passively Recording Fiber Optic Arrays
Richmond Field Station (LBL/CRREL)
Fairbanks Permafrost Thaw Study (LBL/CRREL)
Stanford Fiber Optic Seismic Observatory
Penn State FORESEE Array
2
DAS Records Fiber’s Axial Component of Strain Tensor
⌃✓(x, y, z, t) =
2
4cos(✓) sin(✓) 0
� sin(✓) cos(✓) 00 0 1
3
5
2
666664
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✓@ux@y
+@uy@x
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⇣@ux@z
+ @uz@x
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✓@ux@y
+@uy@x
◆@uy@y
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✓@uy@z
+ @uz@y
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⇣@ux@z
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✓@uy@z
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4cos(✓) � sin(✓) 0sin(✓) cos(✓) 0
0 0 1
3
5
Longitudinal:P-waves, Rayleigh waves
Transverse: S-waves, Love waves
Geophone/Seismometer:
3
DAS = Distributed Acoustic Sensing
Detected Signal Comparison
Note: Sensors oriented along 0 degrees
Rayleigh and Love Waves
4
Detected Signal Comparison: Gauge Effect
Note: Sensors oriented along 0 degrees
Rayleigh and Love Waves
5
if wavelength too small relative to
gauge length
Detected Signal Comparison P, SV and SH Waves
Note: Sensors oriented along 0
degrees horizontal
Wave’s vertical angle of incidence 22.5 degrees
6
Note: Sensors oriented along 0
degrees horizontal
Wave’s vertical angle of incidence 45 degrees
Detected Signal Comparison P, SV and SH Waves
7
Note: Sensors oriented along 0
degrees horizontal
Wave’s vertical angle of incidence 67.5 degrees
Detected Signal Comparison P, SV and SH Waves
8
Nearby Earthquake ExampleMagnitude 3.5 earthquake
Piedmont, CA Recorded on the Stanford Fiber Optic Seismic Observatory
9
S-wave Polarity Switches at Corners
10
Radial-Radial Cross-correlation SensitivityRayleigh and Love Waves
11
Simple Synthetic: Random Sources Around Sensorsbased on Wapenaar et al, 2010
2000 m/s velocity
1200 m
Sources randomly in 2000-3000 m radius
12
Simple Synthetic: Random Sources Around Sensorsbased on Wapenaar et al, 2010
2000 m/s velocity
records fiber 2records fiber 1
13
Simple Synthetic: Random Sources Around Sensorsbased on Wapenaar et al, 2010
2000 m/s velocity 14
Simple Synthetic: Random Sources Around Sensorsbased on Wapenaar et al, 2010
2000 m/s velocityFiber, geophone
15
Radial-Radial Cross-correlation SensitivityRayleigh and Love Waves
16
Transverse-Transverse Cross-correlation SensitivityRayleigh and Love Waves
17
Simple Synthetic: Random Love Wave Sources Around Sensors
based on Wapenaar et al, 2010
2000 m/s velocityFiber, geophone
Love wave sources only
18
Simple Synthetic: Random Sources Around Sensorsbased on Wapenaar et al, 2010
2000 m/s velocityFiber, geophone
Love and Rayleigh Sources
19
E.R. Martin and B.L. Biondi, “Ambient noise interferometry across two-dimensional DAS arrays,” 2017, SEG Ann. Mtg. Expanded Abstracts, 2642-2646.
20
How this affects real data: we get signals along Parallel lines, but not at the closest offsets
Effects at Fairbanks Thaw Testslide ℅ Nate Lindsey
Strong
Strong
Weak
Strong
StrongWeak
Strong
Strong
Weak
21Lindsey et al., 2018 Fall AGU Meeting
Most (not all) parallel channel pairs are useful
22
pairs that should be excluded
(425.0, 425.0)(-425.0, 425.0)
(-425.0, -850.0)
More orthogonal channel pairs are useful
23
pairs that should be excluded
Ackn
owle
dgem
ents
24
Instrumentation used for data acquisition:OptaSense (Standford Fiber Optic Seismic Observatory)Silixa (Penn State FORESEE, Fairbanks Permafrost, Richmond Field Station)
Support for Stanford Fiber Optic Seismic Observatory:Stanford Exploration Project AffiliatesSchlumberger Innovation FellowshipDOE Computational Science Graduate Fellowship DE-FG02-97ER25308
Support for Penn State FORESEE Array:Seed grant from Penn State Institutes of Energy and the EnvironmentCollaborators: Patrick Fox, Andy Nyblade, David StensrudPenn State ITVirginia Tech Advanced Research Computing
Support for Richmond Field Station and Fairbanks Permafrost Experiments:SERDP Grant number RC-2437Many collaborators led by PI Jonathan Ajo-Franklin and Co-PI Anna Wagner
Reference: E Martin, N Lindsey, J Ajo-Franklin, B Biondi, “Introduction to Interferometry of Fiber Optic Strain Measurements,”Preprint on EarthArXiv at https://eartharxiv.org/s2tjd/