Graduate Thesis
1. Geophysical Inversion for DC Resistivity, Electromagnetic (EM) & Potential and its Aplication for Geothermal and Volcano: Time Domain Electromagnetics (TDEM), Magnetotellurics (MT), Controlled-Source Audio-Magnetotelluric (CSAMT), Very Low Frequency (VLF), Ground Penetrating Radar (GPR), DC Resistivity (DC), Induced-Polarization (IP), Self-Potential (SP), Gravity dan Geomagnetic.
2. Volcanology and Geothermal.
3. Complex Systems: Fractal.
4. Atmospheric Sciences.
5. Passive seismic (micro-seismic, hipocenter earthquake) for Geothermal Monitoring.
6. Signal Processing and Its Application: Geophysical Data (MT, Seismic) and Atmospheric Data (rainfall, temperature, cloud, aerosol, tec, etc).
7. Computational Physics and Its Application: finite difference, finite element, boundary element, smoothed-particle hydrodynamics (SPH), etc.
8. Geo-physical Instrumentation: magnetic sensors, DC&IP tools, VLF tools, etc.
Information: 2D & 3D modeling in our Lab usually uses finite difference and finite element method. Dimensional (1D,2D,&3D) research progress of geophysical inversion here. Progress of Modeling and Inversion Lab here. Output list of final projects, Theses and Dissertations here.
Undergraduate Thesis (Final Projects)
1. FBSK-WS-1: Passive seismic for Geothermal Monitoring.
2. FBSK-WS-2: TDEM Method for Geothermal and Volcano.
3. FBSK-WS-3: Geophysical Inversion using Electromagnetics (EM) and Potential Method.
4. FBSK-WS-4: Magnetotellurics (MT) Interpretation for Natural Resources.