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

Abstract: Declared North Korean nuclear tests in 2006, 2009, 2013 and 2016 were observed seismically at regional and teleseismic distances. Waveform similarity allows the events to be located relatively with far greater accuracy than the absolute locations can be determined from seismic data alone. There is now significant redundancy in the data given the large number of regional and teleseismic stations that have recorded multiple events, and relative location estimates can be confirmed independently by performing calc… Show more

“…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 . []. Figure shows the measured surface wave and the predicted δt computed from the best fit relative location obtained through the grid search.…”

“…Figure shows the measured surface wave and the predicted δt computed from the best fit relative location obtained through the grid search. In addition, the predicted differential times given for both the Bayesloc and NORSAR [ Gibbons et al ., ] body wave relative locations were computed using equation .…”

“…Gibbons et al . [] 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%).…”

“…The four recent explosions were clustered under the 2205 m granite peak of Mount Mant'ap. Recent studies of relative locations for various DPRK explosion event pairs using regional distance body wave phases [e.g., Wen and Long , ; Zhang and Wen , ; Gibbons et al ., ] and teleseismic P [e.g., Selby , ; Gibbons et al ., ] were precise and consistent in relative separation patterns. However, the surface wave‐based relative locations for the DPRK explosions are inconsistent with body wave‐based relative locations.…”

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

“…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 . []. Figure shows the measured surface wave and the predicted δt computed from the best fit relative location obtained through the grid search.…”

“…Figure shows the measured surface wave and the predicted δt computed from the best fit relative location obtained through the grid search. In addition, the predicted differential times given for both the Bayesloc and NORSAR [ Gibbons et al ., ] body wave relative locations were computed using equation .…”

“…Gibbons et al . [] 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%).…”

“…The four recent explosions were clustered under the 2205 m granite peak of Mount Mant'ap. Recent studies of relative locations for various DPRK explosion event pairs using regional distance body wave phases [e.g., Wen and Long , ; Zhang and Wen , ; Gibbons et al ., ] and teleseismic P [e.g., Selby , ; Gibbons et al ., ] were precise and consistent in relative separation patterns. However, the surface wave‐based relative locations for the DPRK explosions are inconsistent with body wave‐based relative locations.…”

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

“…Relative location methods have frequently been used to provide accurate epicenters relative to a reference event for a group of closely distributed sources such as aftershock sequences or nuclear explosions. Accordingly, this approach has been successfully applied to obtain the relative locations of the NKTS nuclear explosions (e.g., Gibbons et al., 2017; He et al., 2018; Murphy et al., 2013; Schaff et al., 2018; Selby, 2010; Tian et al., 2018; Tibuleac et al., 2008; Wen & Long, 2010; Zhang & Wen, 2013; Zhao et al., 2014, 2016, 2017). However, most of these relative location methods do not provide satisfactory information on the burial depth due to the strong trade‐off between the burial depth and origin time (e.g., Waldhauser & Ellsworth, 2000; Zhao et al., 2014).…”

High‐Precision Relocation With the Burial Depths of the North Korean Underground Nuclear Explosions by Combining Pn and Pg Differential Traveltimes