Geothermal is one of the many natural resources that provides benefits to human such as using hot spring as a natural tourism spot. Hot spring in Pawan Village need to be researched to explore the presence of Hydrotermal. In this study, the distribution of hydrotermal that occur based on the resistivity of subsurface rocks resulting from geophysical exploration using resistivity geolelectric method with Wenner configuration. The result of this exploration were processed using Res2Dinv software to view soil layer data based on resistivity and points containe hot water aquifers. The resistivity values on the underground layer srtucture model is ≤ 10 Ohm.meter on each trajectory. The constituent layers of each track consist of hot water, clay, sand interlocking with clay, gravel sand and gravel.

1. Winarsih, F. P. (2014). Identifikasi litologi daerah manifestasi panas bumi Parangwedang Kabupaten Bantul DIY dengan metode magnetik. Skripsi. UIN Sunan Kalijaga.

2. Hochstein, M. P. & Browne, P. R. (2000). Surface manifestations of geothermal systems with volcanic heat sources. Encyclopedia Of Volcanoes, 1, 835–855.

3. Setyaningsing, W. (2011). Potensi lapangan Panasbumi Gedongsongo sebagai sumber energi alternatif dan penunjang perekonomian daerah. Jurnal Geografi: Media Informasi Pengembangan Dan Profesi Kegeografian, 8(1), 11–20.

4. Suhartono, N. (2014). Pola sistim panas dan jenis geothermal dalam estimasi cadangan daerah Kamojang. MTG, 5(2).

5. Andriyani, S. & Ramelan, A. H. (2012). Metode geolistrik imaging konfigurasi dipole-dipole digunakan untuk penelusuran sistem sungai bawah tanah pada kawasan Karst di Pacitan, Jawa Timur. Ekosains, 2(1).

6. Telford, W. M., Geldart, L. P., & Sheriff, R. E. (1990). Applied Geophysics:Second Edition. USA: Cambridge University Press.

7. Wijaya, A. S. (2015). Aplikasi metode geolistrik resistivitas konfigurasi wenner untuk menentukan struktur tanah di halaman belakang SCC ITS Surabaya. Jurnal Fisika Indonesia, 19(55).

8. Sharma, P. V. (1997). Environmental And Engineering Geophysics. Cambridge University Press.

9. Putri, C. S. & Malik, U. (2020). Analisa kedalaman air panas menggunakan metode geolistrik konfigurasi Schlumberger di objek wisata air panas Pawan. Komunikasi Fisika Indonesia, 17(2), 87–91.

10. Sapitri, T. E., & Malik, U. (2020). Identifikasi air tanah di Perumahan Graha Mustamindo Permai 3 menggunakan metode geolistrik resistivitas konfigurasi Schlumberger. Komunikasi Fisika Indonesia, 17(3), 150–154.

11. Fitriani, R., Muhammad, J., & Rini, A. S. (2020). Investigation of the distribution of aquifers and groundwater quality in the Village of Rimbo Panjang, Kampar District. Science, Technology & Communication Journal, 1(1), 8–15.

12. Pertiwi, M., Muhammad, J., Farma, R., & Saktioto, S. (2020). Analysis of shallow well depth prediction: A study of temporal variation of GRACE satellite data in Tampan District-Pekanbaru, Indonesia. Science, Technology & Communication Journal, 1(1), 27–36.