Accurate relative location estimates for the North Korean nuclear tests using empirical slowness corrections

Gibbons, Steven J.; Pabian, Frank; Näsholm, Sven Peter; Kværna, Tormod; Mykkeltveit, Svein

doi:10.1093/gji/ggw379

Cited by 33 publications

(27 citation statements)

References 24 publications

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“…Based on the published estimates of burial depths in Table , we specify depths of 380 m for NK1, 600 m for NK2, 420 m for NK3, and 750 m for NK4, NK5, and NK6. These depths are generally consistent with absolute estimates from precise relative location estimates (e.g., Gibbons et al, ; Pasyanos & Myers, ), but significant uncertainty remains, and we will evaluate the effect of these choices. Filtered synthetics for a distance of 5,500 km are then constructed for the chosen source depth for a range of yield spanning the estimates in Table along with Futterman t* values from 0.4 to 1.3 s. While some paths likely have frequency‐dependent attenuation, Chaves et al () found that overall their waveform predictions of the NK6 event favored a constant‐ Q model.…”

Section: Four‐hertz Amplitude Modelingsupporting

confidence: 61%

“…The events were readily detected and identified (e.g., Walter et al, ), in addition to being announced. Precise relative locations for the six explosions, with uncertainties on the order of a few hundred meters, have been determined by numerous seismic differential arrival time studies (e.g., Carluccio et al, ; Gibbons et al, , ; He et al, ; Myers et al, ; Murphy et al, ; Selby, ; Wang et al, ; Wen & Long, ; Yao et al, ; Zhang & Wen, ; Zhao et al, ; Zhao, Xie, He, et al, ). Absolute locations are much more difficult to resolve, and various strategies have been used to place the suite of precise relative locations in absolute position with respect to the source region topography, locations of tunnel portals, and/or deformation features on the surface inferred from InSAR or satellite photography (e.g., Murphy et al, ; Myers et al, ; Pabian & Coblentz, ; Pabian & Hecker, ; Patton & Pabian, ; Wei, ), with recent results having less than ~0.5‐km variations.…”

Section: Introductionmentioning

confidence: 99%

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Yield Estimates for the Six North Korean Nuclear Tests From TeleseismicPWave Modeling and Intercorrelation ofPandPnRecordings

et al. 2019

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The yields of the six declared underground nuclear tests at the North Korean test site are estimated using high-frequency teleseismic P wave amplitude modeling and waveform equalization of short-period teleseismic P waves and regional Pn signals. Average amplitudes of the first cycle of high-frequency (>4 Hz) filtered P wave displacements for each event, adjusted for station sampling relative to the 3 September 2017 event, are modeled using Mueller-Murphy explosion source models for granite and a constant-Q attenuation operator with t* = 0.78 ± 0.03 s. The yield estimates range from 2.6 to 230 kt. Intercorrelation, a waveform equalization procedure that accounts for source function and depth-phase variations between events, is applied to large sets of filtered (>0.8 Hz) teleseismic P and regional Pn seismograms. Searching over yield and burial depth for both events gives optimal parameters by simultaneous waveform equalization of multiple stations. Using specified burial depths spanning from 430 to 710 m for all events based on estimated locations in the source topography assuming tunneling with 4% grade, along with allowing for reduction in source region velocity due to weathering, rock layering, and damage zones, gives yield estimates ranging from 1.4 to 250 kt. Comparison of predicted and observed spectral ratios of Pn phases at station MDJ establishes that these source models are reasonable. Using the preferred yield estimates from intercorrelation, W IC , a yield-calibrated relation of m bNEIC = 0.9 log 10 W IC + 4.13 is determined for the North Korean test site.

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Section: Four‐hertz Amplitude Modelingsupporting

confidence: 61%

Section: Introductionmentioning

confidence: 99%

Yield Estimates for the Six North Korean Nuclear Tests From TeleseismicPWave Modeling and Intercorrelation ofPandPnRecordings

et al. 2019

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“…The direction of the steepest grade for the 200905 and 201302 events ranges between 130°N and 140°N which is also the direction of the largest amplitude ratio and phase shift Geophysical Research Letters 10.1002/2017GL074577 anomalies. Gibbons et al [2016] also attribute topographic effects to surprising differences with Pn waveform similarity across the dense network of Japan. There is no correspondence between the amplitude ratio or phase shift anomalies with the size of the isotropic component from the RMT which only differ between events by an average of ±8% (ranging between 66 and 81%).…”

Section: Discussionmentioning

confidence: 91%

“…If we used 0.9 threshold, only 2% would be removed. Table S1 in the supporting information lists the Bayesloc body wave, surface wave grid search, and Norwegian Seismic Array (NORSAR) body wave relative locations from Gibbons et al [2016]. Figure 2 shows the measured surface wave and the predicted δt computed from the best fit relative location obtained through the grid search.…”

Section: Relative Location Resultsmentioning

confidence: 99%

Relative surface wave amplitude and phase anomalies from the Democratic People's Republic of Korea announced nuclear tests

Ichinose

Myers

Ford

et al. 2017

Geophysical Research Letters

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We performed relative locations of six event pairs based on surface wave (SW) and body wave (BW) differential traveltimes of the 9 September 2016, 6 January 2016, 12 February 2013, and 25 May 2009 announced North Korea nuclear explosions. The SW relative locations for the 25 May 2009 and 12 February 2013 events were inconsistent with the BWs when paired with other events, and only the 6 January 2016/9 September 2016 pair was consistent. Apparent SW phase shift is investigated with respect to the BW relative locations. The pairs formed with the 25 May 2009 and 12 February 2013 events, beneath the southeast slope of Mount Mant'ap, have the largest phase shifts and amplitude ratio deviations, whereas the least deviation was from the 6 January 2016 and 9 September 2016 event pair beneath the mountain peak. Regional moment tensors (MTs) predict the amplitude ratios but do not resolve the relative phase. We find that MTs with 10% difference in isotropic and rotated +CLVD can fit both relative phase and amplitude ratios. SW relative locations of highly isotropic and correlated explosion clusters can be affected by topography and small differences in MT.

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“…At most regional and teleseismic stations with data accessible, the frequency band with enough signal‐to‐noise ratios (SNR) for NKT2006 is quite narrow. Additionally, according to accurate relative location results (e.g., Gibbons et al, ), the distances between NKT2006 and other Korean nuclear tests are significantly larger than distances among the others, which would increases the scatter in the observed spectral ratios at different stations especially at high frequencies.…”

Section: Introductionmentioning

confidence: 99%

Seismic Spectral Ratios Between North Korean Nuclear Tests: Implications for Their Seismic Sources

Jin

Zhu

et al. 2019

JGR Solid Earth

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Seismic spectral ratios between the ) are investigated. All the observed teleseismic P wave spectral ratios exhibit a unique notch at approximately 2.5 Hz, but it is not observed for spectral ratios of regional P and Lg waves. Meanwhile, for a given event pair, the network-averaged Lg wave spectral ratio is similar to that of regional P wave, but with the explosions' source corner frequencies significantly reduced, supporting the conjecture by Fisk (2006, https://doi.org/10.1785/0120060023). We demonstrated that the observed notch of teleseismic P wave spectral ratios may be well modeled with interference between pP and P waves with an apparent pP-P time delay Δt pP of about 0.4 s for NKT2017, while regional P wave spectral ratios may be well fitted with source spectral ratios predicted by classical explosion source models including Mueller and Murphy (1971, https://doi.org/10.2172/4107998) (MM71), Denny and Johnson (1991, https://doi.org/10.1029/gm065p0001) (DJ91), and their two hybrids. Via the above modeling, yield sizes of the explosions and the depth of burials of NKT2009-2016S are determined as functions of NKT2017's buried depth h 0 . Our result indicate that, for h 0 in the range of 600-1,100 m, the MM71-related models give yield estimations about 100-300 kt for NKT2017, 3-7 kt for NKT2009, 6-15 kt for NKT2013 and NKT2016J, and 10-25 kt for NKT2016S, while yield sizes obtained by model DJ91 are much smaller. Nevertheless, for all the above source models, the obtained depths of burial estimations of NKT2009-2016S are always significantly smaller than NKT2017's depth of burial h 0 .

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Accurate relative location estimates for the North Korean nuclear tests using empirical slowness corrections

Cited by 33 publications

References 24 publications

Yield Estimates for the Six North Korean Nuclear Tests From TeleseismicPWave Modeling and Intercorrelation ofPandPnRecordings

Yield Estimates for the Six North Korean Nuclear Tests From TeleseismicPWave Modeling and Intercorrelation ofPandPnRecordings

Relative surface wave amplitude and phase anomalies from the Democratic People's Republic of Korea announced nuclear tests

Seismic Spectral Ratios Between North Korean Nuclear Tests: Implications for Their Seismic Sources

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