Department of Mathematics
Applied Mathematics Seminar, Fall 2017

Mondays 4:00 PM - 5:00 PM, LCB 215




September 11
Speaker: Ornella Mattei, Department of Mathematics, University of Utah
Title: Field patterns: A new type of wave
Abstract: Field patterns are a new type of wave propagating in one-dimensional linear media with moduli that vary both in space and time. Specifically, the geometry of these space-time materials is commensurate with the slope of the characteristic lines so that a disturbance does not generate a complicate cascade of subsequent disturbances, but rather concentrates on a periodic space-time pattern, that we call field pattern. Field patterns present spectacularly novel features. One of the most interesting ones is the appearance of a wave generated from an instantaneous source, whose amplitude, unlike a conventional wake, does not tend to zero away from the wave front. Furthermore, very interestingly, the band structure associated with these special space-time geometries is infinitely degenerate: associated with each point on the dispersion diagram is an infinite space of Bloch functions, a basis for which are generalized functions each concentrated on a field pattern.

September 15. Note Room is LCB 222. Time is Friday September 15 4pm - 5pm.
Speaker: Roland Pulch, Institute for Mathematics and Informatics, University of Greifswald
Title: Model order reduction for linear dynamical systems with quadratic outputs
Abstract: We investigate model order reduction (MOR) for linear dynamical systems, where a quadratic output is de ned as a quantity of interest. The system can be transformed into a linear dynamical system with many linear outputs. MOR is feasible by the method of balanced truncation, but suffers from the large number of outputs. Alternatively, we derive an equivalent quadratic-bilinear system with a single linear output. The properties of the quadratic-bilinear system are analyzed. We examine an MOR by the technique of balanced truncation, where a stabilization of the system is required. Therein, the solution of quadratic Lyapunov equations is traced back to the solution of linear Lyapunov equations. We present numerical results for several test examples comparing the two MOR approaches.

September 18
Speaker: Christel Hohenegger, Department of Mathematics, University of Utah
Title: Diffusion in complex fluids
Abstract: Complex fluids are omnipresent in our everyday life, as they encompass material from polymer melts, to mucus, blood, cake batter, and sill putty. Depending on the applied stress, they can exhibit a liquid or solid like response. As a result, immersed and passive particles show subdiffusive behavior, which is to say the variance of the particle displacement grows sublinearly with time. Passive microrheology records displacement of such particles and extract mechanical properties of the bulk fluid. It is premised on the idea that statistics of particles trajectories can reveal fundamental information about the fluid environment. We probe this hypothesis on two fronts. First, we present a Landau-Lifshitz-Navier-Stokes model of a passive particle advected in a viscoelastic fluid and show how the mean square displacement and first step auto-correlation in the increment process are related to those of the fluid's modes. Second, we address the uncertainty in reconstructing loss and storage moduli which characterize the elastic and viscous properties of the fluid from simulated data as an inverse problem.

September 25
Speaker: Andrej Cherkaev, Department of Mathematics, University of Utah
Title: Modeling of damage spread in beam lattices and robust design of fault-tolerant lattices
Abstract: We discuss modeling of unstable process of damage spread in triangular and hexagonal lattices, introduce quantitative criteria for measurement of lattice damage, simulate the damage spread, and suggest a fault tolerant design of isotropic periodic lattice that is a hybrid between triangular and hexagonal structures.

Joint work with M. Ryvkin (Tel Aviv University)

October 16
Speaker: Chiu-Yen Kao, Department of Mathematics, Claremont Mckenna College
Title: Extremal Eigenvalues for Inhomogeneous Rods and Plates
Abstract: Optimizing eigenvalues of biharmonic equations appears in the frequency control based on density distribution of composite rods and thin plates with clamped or simply supported boundary conditions. We use a rearrangement algorithm to find the optimal density distribution which minimizes a specific eigenvalue. We answer the open question regarding optimal density configurations to minimize k-th eigenvalue for clamped rods and analytically show that the optimal configurations are distinct for clamped rods and simply supported rods. Many numerical simulations in both one and two dimensions demonstrate the robustness and efficiency of the proposed approach.

October 23
Speaker: Akil Narayan, Department of Mathematics and SCI, University of Utah
Title: Multivariate polynomial quadrature for parameterized problems
Abstract: Numerical quadrature rules that use point values are ubiquitous tools for approximating integrals. Some of the most popular rules achieve accuracy by enforcing exactness for integrands in a finite-dimensional polynomial space. When the integration domain is one-dimensional, classical rules are available and plentiful. In multidimensional domains with non-standard polynomial spaces and weights, the situation is far more complicated. We will present a general methodology for numerically generating approximate quadrature rules in the multidimensional case. The need for flexible multivariate quadrature rules will be motivated by solutions to parametric partial differential equations, and the efficacy of our approach will be shown on various test problems in scientific computing.

October 30
Speaker: Frank Stenger, School of Computing, University of Utah
Title: TBA
Abstract: TBA

November 27
Speaker: Varun Shankar, Department of Mathematics, University of Utah
Title: TBA
Abstract: TBA


Seminar organizer: Yekaterina Epshteyn (epshteyn (at) math.utah.edu).

Past lectures: Spring 2017, Spring 2016, Fall 2015, Spring 2015, Fall 2014, Spring 2014, Fall 2013, Spring 2013, Fall 2012, Spring 2012, Fall 2011, Spring 2011, Fall 2010, Spring 2010, Fall 2009, Spring 2009, Fall 2008, Spring 2008, Fall 2007, Spring 2007, Fall 2006, Spring 2006, Fall 2005, Spring 2005, Fall 2004, Spring 2004, Fall 2003, Spring 2003, Fall 2002, Spring 2002, Fall 2001, Spring 2001, Fall 2000, Spring 2000, Fall 1999, Spring 1999, Fall 1998, Spring 1998, Winter 1998, Fall 1997, Spring 1997, Winter 1997, Fall 1996, Spring 1996, Winter 1996, Fall 1995.


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