Cheloni, D.; Famiglietti, N.A.; Akinci, A.; Caputo, R.; Vicari, A.
Modeling the 2023 Türkiye Earthquakes and Strain Accumulation Along the East Anatolian Fault Zone: Insights from InSAR, GNSS, and Small-Magnitude Seismicity, with Implications for the Seismic Potential at Rupture Terminations. Remote Sens. 2025, 17, 2270.
https://doi.org/10.3390/rs17132270
AMA Style
Cheloni D, Famiglietti NA, Akinci A, Caputo R, Vicari A.
Modeling the 2023 Türkiye Earthquakes and Strain Accumulation Along the East Anatolian Fault Zone: Insights from InSAR, GNSS, and Small-Magnitude Seismicity, with Implications for the Seismic Potential at Rupture Terminations. Remote Sensing. 2025; 17(13):2270.
https://doi.org/10.3390/rs17132270
Chicago/Turabian Style
Cheloni, Daniele, Nicola Angelo Famiglietti, Aybige Akinci, Riccardo Caputo, and Annamaria Vicari.
2025. "Modeling the 2023 Türkiye Earthquakes and Strain Accumulation Along the East Anatolian Fault Zone: Insights from InSAR, GNSS, and Small-Magnitude Seismicity, with Implications for the Seismic Potential at Rupture Terminations" Remote Sensing 17, no. 13: 2270.
https://doi.org/10.3390/rs17132270
APA Style
Cheloni, D., Famiglietti, N. A., Akinci, A., Caputo, R., & Vicari, A.
(2025). Modeling the 2023 Türkiye Earthquakes and Strain Accumulation Along the East Anatolian Fault Zone: Insights from InSAR, GNSS, and Small-Magnitude Seismicity, with Implications for the Seismic Potential at Rupture Terminations. Remote Sensing, 17(13), 2270.
https://doi.org/10.3390/rs17132270
