As the technology development, there are more and more new innovations that utilize existing resources to support the energy needs and to fulfill the consumer needs. The energy source that is being discussed at this time is geothermal energy. Geothermal energy sources are considered effective because they are renewable and environmentally friendly when compared to other energies such as fossil energy. In Indonesia itself, geologically, it has a complex series of volcanoes that can be used as a heat source in this new energy innovation. One area that thought to have geothermal potential is the telomoyo mountain area, which is indicated by the manifestation of hot springs on the surface, precisely around Candi Umbul. However, it is necessary to conduct subsurface studies to identify the presence of subsurface structures such as faults or intrusions as heat sources, where this can be overcome using geophysical methods. This research was conducted using the integration of two geophysical methods, namely the geomagnetic method to determine the direction of the fault continuity and the gravity method to determine the regional heat source, and in the other side geological data as a reference for interpretation. From geomagnetic measurements, 163 rock magnetism data were obtained which indicated the existence of a fault continuity with northeast-southwest orientation in the direction of the river flow and cut the manifestation of hot springs. Meanwhile, from 176 gravity topex data, a high complete boguer anomaly value was obtained as an indication of an intrusion in the northeast that was cut by the fault recorded in the geomagnetic data. Based on geophysical data analysis and correlation with geological data from previous studies, it can be assumed that there is a geothermal system in the study area with andesitic intrusion as the heat source, fault structure with northeast-southwest orientation as a weak zone for meteoric water migration, andesite lava as caprock, unit tuff rock as a reservoir and the telomoyo plateau as a recharge area to supply meteoric water from the geothermal system.

Agista, Zendi, et.al. 2014. Analisis Litologi dan Struktur Geologi berdasarkan Citra Landsat pada Area Prospek Panasbumi Gunung Telomoyo dan Sekitarnya, Kabupaten Magelang, Provinsi Jawa Tengah. Geological Engineering E-Journal, 6 (1): 278 – 293.

Basid, Abdul, Nita Andrini, & Sofi Arfiyaningsih. 2014. ESTIMATION OF GEOTHERMAL SYSTEM RESERVOIR USING GEOELECTRICAL SURVEY, RESISTIVITY AND POTENTIAL SELF. Neutrino Journal, 7(1), 57-70

Hermawan, Eddy. 2012. Sistem Panas Bumi Daerah Candi Umbul, Telomoyo berdasarkan Kajian Geologi dan Geokimia. Geological Resources Bulletin, Bandung: Geological Resource Center.

Hermawan, D dan Y. Rezky. 2011. Delineasi Daerah Prospek Panas Bumi berdasarkan Analisis Kelurusan Citra Landsat di Candi Umbul – Telomoyo, Provinsi Jawa Tengah. Geological Resources Bulletin, Bandung: Geological Resource Center.

Jumina & Wijaya, Karna. 2012.PROSPECTS AND POTENTIALRENEWABLE ENERGY RESOURCES (RES) IN INDONESIA. UGM Center for Energy Studies : Yogyakarta.

Ramadhan, N., et.al. 2014. Evaluasi Kondisi Geologi dan Geokimia Potensi Panas Bumi Gunungapi Telomoyo. Proceedings of the 7th National Earth Seminar. Geological Engineering Department, Faculty of Engineering, Gadjah Mada University, October 30th – 31st 2014.

Reynolds, John M. 2011. An Introduction to Applied and Environmental Geophysics Second Edition. United Kingdom: John Wiley and Sons.

Telford, W. M., et.al. 1990. Applied Geophysics Second Edition. New York: Cambridge University.