Graduate School
Navin Thapa: Shaking Up Earthquake Research with Purpose and Innovation
This spring, , a doctoral candidate in Geophysics at the University of 蜜桃导航, was honored with the Top 30 Under 35 Award during the Graduate Student Association鈥檚 Award Ceremony. Navin also celebrated another
major milestone this May鈥攈is graduation from the University of 蜜桃导航, capping off years of cutting-edge research, academic
achievement, and global impact.
Originally from Nepal, a region cradled by the Himalayas and frequently rocked by seismic activity, Navin鈥檚 interest in geophysics is deeply personal. 鈥淭he 2015 Gorkha earthquake sequence changed everything for me,鈥 he says. 鈥淲hile working on my master鈥檚 degree, I collaborated with international researchers monitoring aftershocks in real time. That experience ignited my passion to understand how and why earthquakes happen.鈥
That passion brought Navin to the Center for Earthquake Research and Information (CERI) at the UofM, one of the leading earthquake science institutions in the country. Here,
his research centers on understanding fault mechanics and seismic patterns under varied
conditions鈥攅specially those linked to human activity, such as elevated pore pressure
during geothermal energy development.
Transforming Science into Solutions
Navin鈥檚 work blends experimental seismology, statistical analysis, and real-world monitoring. In the lab, he simulates earthquakes using tiny seismic events鈥攌nown as 鈥渓abquakes鈥濃攖o explore how fluid pressure and stress changes influence fault behavior. One key insight came when he realized these miniature tremors mirror real-world quakes, solidifying the lab鈥檚 role as a window into Earth's deeper processes.
He presented these findings at AGU 2024, one of the world鈥檚 most prestigious geophysics conferences, and recently submitted a first-author manuscript to Geophysical Research Letters.
But his impact extends far beyond academic journals. Navin co-led the installation of a seismic monitoring network in Santa Ana, El Salvador, aimed at detecting volcanic seismicity. He also helped launch a startup through the NSF I-Corps Program, applying machine learning to real-time earthquake detection鈥攖echnology that could soon enhance seismic safety worldwide.
A Mission Beyond the Lab
Navin鈥檚 long-term goal is to bridge the gap between science and public safety. 鈥淚 want my work to support safer communities, especially those in resource-limited, high-risk regions like Nepal,鈥 he explains. 鈥淭hat means not only improving how we detect and understand earthquakes but also making sure our technology reaches the people who need it most.鈥
With climate change pushing the need for sustainable energy, Navin is especially focused on geothermal development and the safe management of induced seismicity鈥攁n increasingly relevant concern as more countries transition to zero-carbon energy.
Rooted in Mentorship and Community
Navin credits much of his success to the supportive environment at UofM, especially his advisor, Dr. Thomas Goebel, whose interdisciplinary approach to seismology and fault mechanics has helped shape his academic journey.
What鈥檚 Next?
As Navin wraps up his PhD, he looks ahead to a career that blends scientific discovery, innovation, and societal impact. Whether in academia, applied research, or the startup space, his goal remains the same: to turn deep knowledge into meaningful action.
鈥淚 want to lead research that not only advances our understanding of earthquakes but also translates into tools that save lives and strengthen communities,鈥 he says. 鈥淭he work isn鈥檛 done when the paper is published鈥攊t鈥檚 done when the science makes a difference.鈥