Eli L. Turkel (hebrew אלי טורקל) (born January 22, 1944) is an Israeli applied mathematician and currently an emeritus professor of applied mathematics at the School of Mathematical Sciences, Tel Aviv University.[1] He is known for his contributions to numerical analysis of Partial Differential equations particularly in the fields of computational fluid dynamics, computational electromagnetics, acoustics, elasticity and image processing with applications to first Temple ostraca and recently deep earning for forward and inverse problems in PDEs,

Eli L. Turkel
אלי טורקל
Born (1944-01-22) January 22, 1944 (age 80)
New York City, United States
NationalityIsraeli
Alma materYeshiva University, New York University, Courant Institute at New York University
Known forNumerical analysis of Partial Differential Equations, Computational fluid dynamics, Computational electromagnetics, Acoustics, Elasticity, Image processing
Notable workRunge-Kutta scheme for Euler equations, Fast algorithms for Navier-Stokes equations, Reading and analysis of first Temple ostraca, Deep learning algorithms for PDEs
Scientific career
FieldsApplied mathematics
InstitutionsTel Aviv University
Doctoral advisorsJ. J. Stoker, Eugene Isaacson

Research

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His research interests include algorithms solving partial differential equations (PDEs) including scattering and inverse scattering, image processing, and crack propagation. His most quoted paper is with Jameson and Schmidt (JST) on a Runge-Kutta scheme to solve the Euler equations.

Another main contribution includes fast algorithms for the Navier-Stokes equations based on preconditioning techniques, radiation boundary conditions and high order accuracy for wave propagation in general shaped domains using difference potentials.

He has published work on reading ostraca from the first Temple period. Algorithmic handwriting analysis of Judah’s military correspondence sheds light on the composition of biblical texts, which appeared in PNAS was quoted by numerous sources including the front page of the NY Times. Later articles deal with ostraca at both Samaria and Arad. Other research includes high order compact numerical methods for hyperbolic equations, including the Helmholtz equation, acoustics and Maxwell's equations, using Cartesian grids but general shaped boundaries and interfaces. Other research uses deep learning to detect sources and obstacles underwater using the acoustic wave equation and data at a few noisy sensors. Recent applications of deep learning include using large time steps and improving the accuracy of finite differences for high frequencies on coarse grids. Other deep learning algorithms include, HINTS for iterative methods, VITO for inverse problems and MATCH for time-dependent PDEs. He has also authored articles in Tradition and the Journal of Contemporary Halacha.

Turkel was listed as an ISI highly cited researcher in mathematics.[2] Google Scholar lists over 20,000 citations.

Education

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Turkel was born in New York City, United States. He received his B.A. degree from the Yeshiva University in 1965, M.S. degree from the New York University in 1967, and Ph.D. degree from the Courant Institute at New York University in 1970; all in mathematics. His Ph.D. thesis advisors were J. J. Stoker and Eugene Isaacson.

He received rabbinical ordination from Rabbi Joseph B. Soloveitchik.

References

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  1. ^ "Eli Turkel". at the Tel Aviv University. Retrieved 2009-06-21.
  2. ^ Thomson ISI. "Turkel, Eli, ISI Highly Cited Researchers". Retrieved 2009-06-21.
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