Gravity Satellite has been widely used in tectonic studies and regional of geological mapping. The Satellite Gravity data are provided free by Scripps Institution of Oceanography, University of California San Diego. The data are acquired by GEOSAT and ERS-1 satellites with a 1.5 km resolution for one pixel. For a further application, the tilt derivative analytic technique was used in order to enhance linear trends of the geological structure revealed by the Bouguer anomalies. The method is represented by the value of an angle between the total horizontal and vertical derivative from the gravity data. The results show that the tilt derivative calculation has been able to map clearly some geological structures on the north of Sumatra i.e., the Aceh and the Seulimeuem segments, as well as some local faults around them. On the other hand, Banda Aceh as the capital city of Aceh Province and Pidie District is dominated by positive values of the tilt derivative anomalies. The data coincide with geological maps of both areas where they are covered by alluvial deposits. Based on the result, it can be concluded that the tilt derivative method is potentially used for quick interpretation of the satellite gravity data.

Barber, A. J., Crow, M. J., & Milsom, J. S. 2005. Sumatera: geology, resource, and tectonic evolution geological society. London

Yanis, M., Bakar, M. A., & Ismail, N. 2017. The use of VLF-EM and electromagnetic induction methods for mapping the ancient fort of Kuta lubok as tsunami heritage i. In 23rd European Meeting of Environmental and Engineering Geophysics

Ismail, N., Yanis, M., Abdullah, F., Irfansyam, A., & Atmojo, B. S. W. 2018. Mapping buried ancient structure using gravity method: A case study from Cot Sidi Abdullah, North Aceh. Journal of Physics: Conference Series

Ismail, N., Yanis, M., Idris, S., Abdullah, F., & Hanafiah, B. 2017. Near-Surface Fault Structures of the Seulimuem Segment Based on Electrical Resistivity Model. Journal of Physics: Conference Series (Vol. 846). Institute of Physics Publishing

Marwan, Asrillah., Yanis, M., & Furumoto, Y. 2019. Lithological Identification of Devastated Area by Pidie Jaya Earthquake through Poisson’s Ratio Analysis. International Journal of Geomate, 17(63)

Bürgmann, R. 2018. The geophysics, geology, and mechanics of slow fault slip. Earth and Planetary Science Letters, 495, 112-134

Xu, Chuang., Wang, Hai-hong., Luo, Zhi-cai., Ning, Jin-sheng., & Liu, Hua-Liang. 2015. Multilayer stress from gravity and its tectonic implications in urban active fault zone: A case study in Shenzhen. South China Journal of Applied Geophysics, 114, 174-182

Braitenberg, C., Wienecke, S., and Wang, Y. 2006. Basement structures from satellite‐derived gravity field: South China Sea ridge, J. Geophys. Res, 111, B05407

Eshaghzadeh, A. 2017. Depth estimation using the tilt angle of the gravity field due to the semi-infinite vertical cylindrical source. J. Geol. Res, ID 3513272, 7