Month: September 2024

The 36th KMGS will be held on September 26th, Thursday, at the Natural Science Building (E6-1) Room 3438.
We invite a speaker Namhyun Eun from the Dept. of Mathematical Sciences, KAIST.
The abstract of the talk is as follows.

[Speaker] 은남현 (Namhyun Eun) from Dept. of Mathematical Sciences, KAIST, supervised by Prof. 강문진, Moon-Jin Kang
[Title] Uniqueness and Stability of Riemann shocks to compressible Euler system in a class of inviscid limits
[Discipline] Analysis (of PDEs)
[Abstract]
In this talk, we will discuss the uniqueness and stability of a Riemann shock solution to the compressible Euler system, which is a self-similar entropy solution connecting two different constant states, in a physical vanishing viscosity limits. We focus on the one dimensional compressible full Euler system and consider the Brenner-Navier-Stokes-Fourier system, which is an amendment of the Navier-Stokes-Fourier system, to describe the physical perturbation class. (This is a joint work with Moon-Jin Kang (KAIST) and Saehoon Eo (Stanford University).
[Language] Korean

The 35th KMGS will be held on September 12th, Thursday, at the Natural Science Building (E6-1) Room 3438.
We invite a speaker Daehee Cho from the Dept. of Mathematical Sciences, KAIST.
The abstract of the talk is as follows.

[Speaker] 조대희 (Daehee Cho) from Dept. of Mathematical Sciences, KAIST, supervised by Prof. 임미경, Mikyoung Lim
[Title] Analytic shape recovery of an elastic inclusion from elastic moment tensors
[Discipline] Inverse problem (Applied mathematics)
[Abstract]
In this presentation, I will present an analytic non-iterative approach for recovering a planar isotropic elastic inclusion embedded in an unbounded medium from the elastic moment tensors (EMTs), which are coefficients for the multipole expansion of field perturbation caused by the inclusion. EMTs contain information about the inclusion’s material and geometric properties and, as is well known, the inclusion can be approximated by a disk from leading-order EMTs. We define the complex contracted EMTs as the linear combinations of EMTs where the expansion coefficients are given from complex-valued background polynomial solutions. By using the layer potential technique for the Lamé system and the theory of conformal mapping, we derive explicit asymptotic formulas in terms of the complex contracted EMTs for the shape of the inclusion, treating the inclusion as a perturbed disk. These formulas lead us to an analytic non-iterative algorithm for elastic inclusion reconstruction using EMTs. We perform numerical experiments to demonstrate the validity and limitations of our proposed method.
[Language] Korean

We are informing you of the schedule of the KAIST Math Graduate student Seminar(KMGS) 2024 Fall. We look forward to your attention and participation!

In this seminar, 7 talks will be held on Thursday from 11:50 to 12:40 in Room 1501 on the first floor of the Natural Science Building(E6-1).

Lunch will be provided after each talk.
Please apply through the QR code on the poster.