Small interseismic asperities and widespread aseismic creep on the northern Japan subduction interface

The canonical model of fault coupling assumes that slip is partitioned into fixed asperities that display stick‐slip behavior and regions that creep stably. We show that this simple asperity model is inconsistent with GPS‐derived deformation in northern Japan associated with interseismic coupling on the subduction interface and the transient response to M w 6.3–7.2 earthquakes during 2003–2011. Comparisons of GPS data with simulations of earthquakes on asperities and associated velocity‐strengthening afterslip require that afterslip overlaps areas of the fault that ruptured in previous earthquakes, including the 2011 M w 9 Tohoku‐oki earthquake. Whereas about 55% of the plate interface ruptured in earthquakes during 2003–2011, we infer that only 9% of the plate interface was fully locked between earthquakes. Inferred locked asperities are roughly 25% the size of rupture areas determined by seismic source inversions. These smaller asperities are consistent with interseismic strain accumulation in 2009, although more extensive locking is required a decade earlier in 1998.