@article{fdi:010079701,
  title = {{D}istribution of interseismic coupling along the {N}orth and {E}ast {A}natolian faults inferred from {I}n{SAR} and {GPS} data},
  author = {{B}letery, {Q}uentin and {C}avalie, {O}. and {N}ocquet, {J}ean-{M}athieu and {R}agon, {T}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}he {N}orth {A}natolian {F}ault ({NAF}) has produced numerous major earthquakes. {A}fter decades of quiescence, the{M}(w)6.8 {E}lazig earthquake (24 {J}anuary 2020) has recently reminded us that the {E}ast {A}natolian {F}ault ({EAF}) is also capable of producing significant earthquakes. {T}o better estimate the seismic hazard associated with these two faults, we jointly invert interferometric synthetic aperture radar ({I}n{SAR}) and {GPS} data to image the spatial distribution of interseismic coupling along the eastern part of both the {NAF} and {EAF}. {W}e perform the inversion in a {B}ayesian framework, enabling to estimate uncertainties on both long-term relative plate motion and coupling. {W}e find that coupling is high and deep (0-20 km) on the {NAF} and heterogeneous and superficial (0-5 km) on the {EAF}. {O}ur model predicts that the {E}lazig earthquake released between 200 and 250 years of accumulated moment, suggesting a bicentennial recurrence time.},
  keywords = {coupling ; interseismic ; {A}natolia ; earthquake ; {B}ayesian ; inversion ; {TURQUIE} ; {ANATOLIE}},
  booktitle = {},
  journal = {{G}eophysical {R}esearch {L}etters},
  volume = {47},
  numero = {16},
  pages = {e2020{GL}087775 [11 p.]},
  ISSN = {0094-8276},
  year = {2020},
  DOI = {10.1029/2020gl087775},
  URL = {https://www.documentation.ird.fr/hor/fdi:010079701},
}