The general non-stationary Anderson Parabolic Model with correlated white noise

Doctoral Candidate Name: 
Xiaoyun Chen
Program: 
Mathematics (Applied)
Abstract: 

This dissertation contains the analysis of the general lattice non-stationary Anderson parabolic model with correlated white noise. It starts form the brief description of known results about parabolic problem with local Laplacian and the detailed description of the general non-local Anderson model in the non-stationary random environment (Chapter 2). Chapter 3 is devoted to existence-uniqueness theorems for the parabolic model in the weighted Hilbert space and the solution in Feynman–Kac formula representation. The chapter 4 contains the results on the first and second moments of the solution and the spectral properties of the Hamiltonian $\mathcal{H}_2$, providing the basic information on the phase transition of the model from the regular to intermittent structure, additional results concerns the other spectral bifurcations of $\mathcal{H}_2$.

Defense Date and Time: 
Tuesday, March 29, 2022 - 2:00pm
Defense Location: 
Online via Zoom
Committee Chair's Name: 
Dr. Stanislav Molchanov
Committee Members: 
Dr. Micheal Grabchak, Dr. Aziz Issaka, Dr. Jeremy Holleman