Nail Gumerov
Nail Gumerov was a senior research scientist in UMIACS for almost 20 years. He died in January 2022.
His research interests were broad and include scientific computing and algorithms related to applied mathematics, fluid mechanics, acoustics, electromagnetism, plasma physics, nanoscience, and more. Gumerov was particularly interested in fast multipole methods (FMM) and their applications, for which he developed a course taught for several years to students studying computer science, mathematics, mechanical and electrical engineering. His research interests also included programming of graphics processors, use of heterogeneous architectures, and scalable algorithms for supercomputing.
Gumerov has written more than 160 research publications, including a large monograph on the FMM (co-authored with UMIACS faculty member Ramani Duraiswami and published by Elsevier, Oxford, UK, 2005), and more than 40 papers in scientific archival journals on applied mathematics, fluid mechanics, computational physics, numerical methods, and algorithms.
He served as an associate editor for the Journal of the Acoustical Society of America. Gumerov has also collaborated with the Bashkir State University in Russia (the Center for Micro- and Nanoscale Dynamics of Dispersed Systems) as a scientific advisor and professor-consultant.
Gumerov has authored and co-authored several efficient algorithm implementations, software, and inventions, and as a co-author he was a finalist for the university's Invention of the Year awards in information technology in 2002 and 2005, and winner of the award in 2008.
He received his doctorate from the Lomonosov Moscow State University in fluid mechanics in 1987. He also received his Sc.D. degree in physics and mathematics from Tyumen State University in 1992, which is the highest scientific degree in the former USSR and Russia. Gumerov has resided and worked in the U.S. since 1993.
Go here to view Gumerov's academic publications on Google Scholar.
Publications
2000
2000. Dynamics of vapor bubbles with nonequilibrium phase transitions in isotropic acoustic fields. Physics of Fluids. 12:71-71.
2000. An inverse method for the acoustic detection, localization and determination of the shape evolution of a bubble. Inverse Problems. 16:1741-1741.
2000. Rectified Heat Transfer to Vapor Bubbles in Standing Acoustic Waves. Microgravity fluid physics and heat transfer: proceedings of the International Conference on Microgravity Fluid Physics and Heat Transfer held at the Tutle Bay Hilton, Oahu, Hawaii, September 19-24, 1999. :96-96.
1998
1998. Effect of acoustic radiation on the stability of spherical bubble oscillations. Physics of Fluids. 10:1767-1767.
1998. Dynamics of bubbles in conditions of gas hydrate formation. 8th International Offshore and Polar Engineering Conference, Montreal, Canada.
1998. Modeling of particle motion in viscous swirl flow between two porous cylinders. Proc. ASME Fluids Engineering Division Summer Meeting. :21-25.