Dr. Wahyu Srigutomo

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Undergraduate Degree, Bandung Institute of Technology, Indonesia (1995).
Master Degree, Bandung Institute of Technology, Indonesia (1997).
Doctoral Degree, The University of Tokyo, Japan (2002).
Visiting Associate Professor, Institute for Geothermal Science, Kyoto University, Japan (Oct 2005-Oct 2006).

Website: https://sites.google.com/site/srigutomoitb

- Electrodynamics
- Electricity and Magnetism
- Selected topics in Physics of Complex Systems
- Earth Physics and Complex Systems
- Physics of Geothermal System
- Elementary Physics

- Earth Physics
- Electromagnetic Methods
- Geophysical Modeling and Inversion
- Computational Physics
- Geophysical Exploration

[1]. W. Srigutomo, T. Kagiyama, W. Kanda, H. Munekane, T. Hashimoto, Y. Tanaka, H. Utada, and M. Utsugi. Resistivity structure of Unzen Volcano derived from time domain electromagnetic (TDEM) survey. Journal of Volcanology and Geothermal Research 175 (2008) 231-240.
[2]. P. Abadi, S. Saito, and W. Srigutomo. Low-latitude scintillation occurrences around the equatorial anomaly crest over Indonesia. Annales Geophysicae, 32, 7-17 (2014).
[3]. E. K. Huliselan, S. Bijaksana, W. Srigutomo, and E. Kardena. Scanning electron microscopy and magnetic characterization of iron oxides in solid waste landfill leachate. Journal of Hazardous Materials 179 701-708 (2010).
[4]. W. Indrasari, M. Djamal, W. Srigutomo, and N. Hadziqoh. High Sensitivity Fluxgate Sensor for Detection of AC Magnetic Field: Equipment for Characterization of Magnetic Material in Subsurface. Advanced Materials Research vol. 896 (2014) pp 718-721.
[5]. W. Srigutomo, A. Harja, D. Sutarno, and T. Kagiyama. VLF Data Analysis Through Transformation Into Resistivity Value: Application to Synthetic and Field Data. Indonesian Journal of Physics vol. 16 no. 4 (2005), 127-136.
[6]. E. Ariani and W. Srigutomo. 1D and 2D Occam's Inversion of Magnetotelluric Data Applied in Volcano-Geothermal Area in Central Java, Indonesia. Journal of Physics: Conference Series 739 (2016) 012036.
[7]. Imran H. M., W. Srigutomo, D. Sutarno, P. Sumintadireja. The Modeling of 2D Controlled Source Audio Magnetotelluric (CSAMT) Response Using Finite Element Method. Journal of Electromagnetic Analysis and Applications (2012) 4, 293-304.
[8]. Imran. H. M., W. Srigutomo, and D. Sutarno. Topographic Effect Modeling of 2D MT Responses using Boundary Element Method. AIP Conference Proceedings 1454, 113-116 (2012).
[9]. W. Srigutomo, E. Agustine, and M.H. Zen. Quantitative Analysis of Self-Potential Anomaly: Derivative Analysis, Least-Squares Method and Non-linier Inversion. Indonesian Journal of Physics (2006) vol. 17 no. 1.
[10]. W. Srigutomo, Trimadona, and P. M. Pratomo. 2D Resistivity and Induced Polarization Measurement for Manganese Ore Exploration. Journal of Physics: Conference Series 739 (2016) 012138.
[11]. W. Srigutomo and Suska U. A. Application of Levenberg-Marquardt inversion to Microgravity Data for Investigation of Shallow Volcanic Magma Chamber Deformation. AIP Conference Proceedings 1454, 126-129 (2012).
[12]. S. D. H. Putra and W. Srigutomo. Thermal modeling and heat flow density interpretation of the onshore Northwest Java Basin, Indonesia. Geothermal Energy (2016) 4:12.
[13]. J. Sampurno, A. Azwar, F. D. E. Latief, and W. Srigutomo. Multifractal Characterization of Pore Size Distributions of Peat Soil. J. Math. Fund. Sci. vol. 48 no. 2 (2016) 106-114.
[14]. R. Kumalasari and W. Srigutomo. Location and Pressures Change Prediction of Bromo Volcano Magma Chamber Using Inversion Scheme. Journal of Physics: Conference Series 739 (2016) 012102.
[15]. W. Srigutomo, Trimadona, and E. Agustine. Investigation of Underground Hydrocarbon Leakage using Ground Penetrating Radar (GPR). Journal of Physics: Conference Series 739 (2016) 012137.
[16]. W. Srigutomo, R. Kurnia and Suprijadi. Improvement of Fluid Simulation Runtime of Smoothed Particle Hydrodynamics by Using Graphics Processing Unit (GPU). Journal of ICT Research and Application Vol. 11, No. 3 (2017) 230-252.

[1]. Pemodelan Kuantitatif Aliran Hidrotermal Gunung Tangkuban Parahu Berbasis Data Self-Potential dan Magnetotellurik (2014) .
[2]. Self Potential Modelling for Investigation of Shallow Structure in Volcanic Region (2008) .
[3]. Fenomena Seismoelektrik dari Aplikasinya dalam Mengindentifikasi Medium Tesaturasi Fluida melalui Pemodelan Numerik dan Pengukuran (2009).
[4]. Pemodelan dan Inversi Fungsi Transfer EM untuk Eksplorasi Panas Bumi (2009) .
[5]. Implementasi Metode Time Domain Electromagnetic (TDEM) untuk Monitoring Injeksi CO2 ke bawah Permukaan Bumi (2015) .
[6]. Support of the Government of Norway to the Gundih CCS Pilot Project, Central Java Province-Indonesia (2014) .
[7]. Penentuan CO2-Storage dan Pengembangan Metode Geofisika Terpadu untuk Monitoring Injeksi CO2 di Lapangan Gundih, Jawa Tengah (2014) .
[8]. Pengembangan Model Predator&Mangsa KF untuk Menyelidiki Pengaruh Konsentrasi Aerosol terhadap Curah Hujan di Beberapa Wilayah Indonesia (2016) .
[9]. Pendeteksian Endapan Tefra Gunungapi Kelud 2014 untuk Mitigasi Bencana Lahar Menggunakan Data Synthetic Aperture Radar (SAR) (2014) .
[10]. Pengembangan Wireless Sensor Network Tesbed untuk Monitoring Gunung Api (2016) .
[11]. Pengembangan Portable Controlled Source Electromagnetic Berbasis Sensor Fluxgate untuk Monitoring Sifat Magnetik Tanah Pertanian (2013).
[12]. Pengembangan Pemodelan dan Inversi Geometri Kontinu Metode Self-Potential dan DC Resistivity serta Aplikasinya untuk Investigasi Struktur Hidrologi Dangkal (2017).