 J. Thomas Beale, Professor Emeritus of Mathematics
Here are two recent papers: J. T. Beale, W. Ying, and J. R. Wilson, A simple method for computing singular or nearly singular integrals on closed surfaces, Comm. Comput. Phys. 20 (2016), 733753 or arxiv.org/abs/1508.00265 J. T. Beale, Uniform error estimates for NavierStokes flow with an exact moving boundary using the immersed interface method, SIAM J. Numer. Anal. 53 (2015), 20972111 or arxiv.org/abs/1503.05810
Much of my work has to do with incompressible fluid flow, especially qualitative properties of solutions and behavior of numerical methods, using analytical tools of partial differential equations. My research of the last few years has the dual goals of designing numerical methods for problems with interfaces, especially moving interfaces in fluid flow, and the analysis of errors in computational methods of this type. We have developed a general method for the numerical computation of singular or nearly singular integrals, such as layer potentials on a curve or surface, evaluated at a point on the curve or surface or nearby, in work with M.C. Lai, A. Layton, S. Tlupova, and W. Ying. After regularizing the integrand, a standard quadrature is used, and corrections are added which are determined analytically. Current work with coworkers is intended to make these methods more practical, especially in three dimensional simulations. Some projects (partly with Anita Layton) concern the design of numerical methods which combine finite difference methods with separate computations on interfaces. We developed a relatively simple approach for computing NavierStokes flow with an elastic interface. In analytical work we have derived estimates in maximum norm for elliptic (steadystate) and parabolic (diffusive) partial differential equations. For problems with interfaces, maximum norm estimates are more informative than the usual ones in the L^2 sense. More general estimates were proved by Michael Pruitt in his Ph.D. thesis.
 Contact Info:
Office Location:  231 Physics Bldg, Durham, NC 277080320  Office Phone:  (919) 6602814  Email Address:    Office Hours:
 by appointment.
 Education:
Ph.D.  Stanford University  1973 
M.S.  Stanford University  1969 
B.S.  California Institute of Technology  1967 
 Specialties:

Analysis
Applied Math
 Research Interests: Partial Differential Equations and Fluid Mechanics
Much of my work has to do with incompressible fluid flow, especially qualitative properties of solutions and behavior of numerical methods, using analytical tools of partial differential equations. Recently I have developed a general method for the numerical computation of singular integrals, such as layer potentials on a curve or surface, evaluated at a point on or near the layer (partly with M.C. Lai). A standard quadrature is used for a regularized
integral on overlapping coordinate grids with analytical corrections. In work
with J. Strain we have applied this approach to Stokes flow with a moving elastic interface.
A recent paper with A. Layton gives an analytical explanation, with applications, of the observed gain in order of accuracy in certain finite difference methods for computing boundary value problems with irregular boundaries using only regular grids (A. Mayo's method or the immersed
interface method of R. LeVeque and Z. Li).
Related projects include computation of unstable fluid interfaces (with G. Baker) and the design of a boundary integral method for 3D water waves which is numerically stable and proved to converge; the discretization of potentials on a moving surface is a central issue.
 Keywords:
Differential equations, Partial • Fluid mechanics • Fluidstructure interaction • Numerical analysis
 Curriculum Vitae
 Current Ph.D. Students
(Former Students)
 Representative Publications
(More Publications)
 J. t. Beale, W. YIng, and J. R. Wilson, A simple method for computing singular or nearly singular integrals on closed surfaces,
Commun. Comput. Phys.
(Submitted, August, 2015) [pdf]
 Beale, JT, Uniform Error Estimates for NavierStokes Flow with an Exact Moving Boundary Using the Immersed Interface Method,
SIAM Journal on Numerical Analysis, vol. 53 no. 4
(2015),
pp. 20972111, ISSN 00361429 [pdf], [doi]
 Tlupova, S; Beale, JT, Nearly singular integrals in 3D stokes flow,
Communications in computational physics, vol. 14 no. 5
(2013),
pp. 12071227, ISSN 18152406 [pdf], [doi] [abs]
 Ying, W; Beale, JT, A fast accurate boundary integral method for potentials on closely packed cells,
Communications in computational physics, vol. 14 no. 4
(2013),
pp. 10731093, ISSN 18152406 [pdf], [doi] [abs]
 Beale, JT, Partially implicit motion of a sharp interface in NavierStokes flow,
J. Comput. Phys., vol. 231
(2012),
pp. 61596172 [pdf]
 Layton, AT; Beale, JT, A partially implicit hybrid method for computing interface motion in stokes flow,
Discrete and Continuous Dynamical Systems  Series B, vol. 17 no. 4
(2012),
pp. 11391153, ISSN 15313492 [pdf], [doi] [abs]
 Beale, JT, Smoothing properties of implicit finite difference methods for a diffusion equation in maximum norm,
SIAM Journal on Numerical Analysis, vol. 47 no. 4
(2009),
pp. 24762495, ISSN 00361429 [pdf], [doi] [abs]
 Beale, JT; Layton, AT, A velocity decomposition approach for moving interfaces in viscous fluids,
Journal of Computational Physics, vol. 228 no. 9
(2009),
pp. 33583367, ISSN 00219991 [pdf], [doi] [abs]
 Beale, JT, A proof that a discrete delta function is secondorder accurate,
Journal of Computational Physics, vol. 227 no. 4
(2008),
pp. 21952197, ISSN 00219991 [pdf], [doi] [abs]
 Beale, JT; Strain, J, Locally corrected semiLagrangian methods for Stokes flow with moving elastic interfaces,
Journal of Computational Physics, vol. 227 no. 8
(2008),
pp. 38963920, ISSN 00219991 [repository], [doi] [abs]
 Beale, JT; Layton, AT, On the accuracy of finite difference methods for elliptic problems with interfaces,
Commun. Appl. Math. Comput. Sci., vol. 1
(2006),
pp. 91119 [pdf]
 Baker, GR; Beale, JT, Vortex blob methods applied to interfacial motion,
Journal of Computational Physics, vol. 196 no. 1
(2004),
pp. 233258 [pdf], [doi] [abs]
 Beale, JT, A gridbased boundary integral method for elliptic problems in three dimensions,
SIAM Journal on Numerical Analysis, vol. 42 no. 2
(2004),
pp. 599620, ISSN 00361429 [pdf], [doi] [abs]
 Beale, JT; Lai, MC, A method for computing nearly singular integrals,
SIAM Journal on Numerical Analysis, vol. 38 no. 6
(2001),
pp. 19021925 [ps], [doi] [abs]
 Beale, JT, A convergent boundary integral method for threedimensional water waves,
Mathematics of Computation, vol. 70 no. 235
(2001),
pp. 9771029 [ps], [doi] [abs]
