Indonesian Tsunami: What Happened, How To Survive One, And How To Help, Forbes, 2018. ,
After Mysterious 30-Minute Rumble Emanates from Waters Near Madagascar, Gizmodo, Geologists Joke About "Sea Monster, 2018. ,
, Nat. Geosci, vol.12, pp.200-205, 2019.
The Hazards of Hazard Communication: Importance, Rewards, and Challenges of Science in the Public Sphere: A white paper summary of presentations from session PA23B at the 2018 Fall Meeting of the 485 American Geophysical Union, 2019. ,
Internet Users as Seismic Sensors for Improved Earthquake Response, Transactions American Geophysical Union, vol.89, pp.225-226, 2008. ,
LastQuake: From rapid information to global seismic risk reduction, Int. J. Disast. Risk Re, vol.28, pp.32-42, 2018. ,
The reward and risk of social media for academics, Nat. Rev. Chem, vol.3, pp.459-461, 2019. ,
, Nearly Instantaneous Tsunamis Following the M w 7.5 2018 Palu Earthquake, vol.46, pp.5117-5126, 2019.
Drainage of a deep magma reservoir near Mayotte inferred from seismicity and deformation, Nat. Geosci, vol.13, pp.87-93, 2020. ,
The 2016 Central Italy Seismic Sequence: A First Look at the Mainshocks, Aftershocks, and Source Models, Seismol. Res. Lett, vol.88, pp.757-771, 2017. ,
Twitter as a tool for communication and knowledge exchange in academic medicine: A guide for skeptics and novices, Med. Teachnol, vol.37, pp.411-416, 2015. ,
OMG Earthquake! Can Twitter Improve Earthquake Response?, Seismol. Res. Lett, vol.81, pp.246-251, 2010. ,
Frequency or Skillfulness: How professional news media use Twitter in five Western countries, Journalism Stud, vol.16, pp.513-529, 2015. ,
Taking into account the cultural context to improve scientific communication -Lessons learned from earthquakes in Mayotte, EGU Seismology, 2019. ,
Birth of a large volcano offshore Mayotte through lithosphere-scale rifting, revision, 2020. Fountain, H.: Indonesia Tsunami's Power After Earthquake Surprises Scientists, 2018. ,
and the USGS/NEIC Earthquake Response Team: 88 Hours: The U.S. Geological Survey National Earthquake, 2011. ,
, Seismol. Res. Lett, vol.82, pp.481-493, 2011.
Tweet -Low-frequency seismic rumblings originated close to the island of Mayotte, Twitter, 2018. ,
Tweet about preliminary CMT inversion, Twitter, 2018. ,
Geoscience analysis on Twitter, Nat. Geosci, vol.12, pp.585-586, 2019. ,
, A Shallow Earthquake Swarm Close to Hydrocarbon Activities: Discriminating between Natural and Induced Causes for the 2018-2019 Surrey, vol.90, pp.2095-2110, 2019.
Empowering the public with earthquake science, Nat. Rev. Earth Environ, vol.1, pp.2-3, 2020. ,
Early Flood Detection for Rapid Humanitarian Response: Harnessing Near Real-Time Satellite and Twitter Signals, ISPRS Int. J. Geo-Inform, vol.4, pp.2246-2266, 2015. ,
Timeline of BMKG tsunami warning, Twitter, 2018. ,
The Structure of Scientific Revolutions, 1996. ,
Mayotte earthquake swarm, 2018. ,
2/n Mayotte earthquake swarm, 2nd part of discussion, 2018. ,
3/n Mayotte earthquake swarm, 2018. ,
Palu earthquake -Co-building knowledge timeline, 2019. ,
Using tweets to support disaster planning, warning and response, Saf. Sci, vol.90, pp.33-47, 2016. ,
How to use Twitter to further your research career, Nature, 2019. ,
The volcanotectonic crisis of 2018 east of Mayotte, Comoros islands, 2019. ,
URL : https://hal.archives-ouvertes.fr/hal-02411138
Indonésie: polémique " vaine " sur le système d'alerte tsunami, Real-Time Science on Social Media: The Example of Twitter in the Minutes, Hours, Days after the 2015 M 7.8 Nepal Earthquake, 2015. ,
, EarthquakeReport Italy, Twitter, 2016.
EarthquakeReport offshore of Madagascar, the Comoros Archipelago, 2018. ,
, National Center for Earthquake Studies: Peta Sumber dan Bahaya Gempa Indonesia Tahun, 2017.
Magma shift" may have caused mysterious seismic wave event, The Guardian, 2018. ,
, How complex is the 2016 M w 7.8 Kaikoura earthquake, vol.62, pp.309-311, 2017.
The Benefits of Twitter for Scientists, American Scientist, 2017. ,
Microblock rotations and fault coupling in SE Asia triple junction (Sulawesi, Indonesia) from GPS and earthquake slip vector data, Evidence of supershear during the 2018 magnitude 7.5 Palu R. Lacassin et al.: Rapid collaborative knowledge building via Twitter earthquake from space geodesy, vol.111, pp.192-199, 2006. ,
Crowdsourcing triggers rapid, reliable earthquake locations, Sci. Adv, vol.5, 2019. ,
Communicating Seismic Risk: the Geoethical Challenges of a People-Centred, Participatory Approach, Ann. Geophys, vol.60, p.17, 2018. ,
URL : https://hal.archives-ouvertes.fr/insu-02378418
Communicating on Twitter during a disaster: An analysis of tweets during Typhoon Haiyan in the Philippines, Coupled, Physics-Based Modeling Reveals Earthquake Displacements are Critical to the, vol.50, pp.392-398, 2015. ,
earthquake co-seismic ruptures and landslides using image correlation techniques on optical satellite data, A preliminary report on the M 7.5 Palu, vol.512, pp.126-129, 2014. ,
Fault systems of the eastern Indonesian triple junction: evaluation of Quaternary activity and implications for seismic hazards, Geol. Soc. Lond. Spec. Publ, vol.441, pp.71-120, 2017. ,
Impact of communal irrigation on the 2018 Palu earthquake-triggered landslides, The Science of Indonesia's Surprise Tsunami, vol.12, pp.940-945, 2018. ,
Strange waves rippled around the world, and nobody knows why, National Geographic, 2018. ,
The use of social media in volcano science communication: challenges and opportunities, 2019. ,
Warning system might have saved lives in Indonesian tsunami, 2018. ,
Working Together Apart? Building a Knowledge-Sharing Culture for Global Virtual Teams, Creat. Innov. Manag, vol.13, pp.15-29, 2004. ,