Spectral analysis of 1D nearest-neighbor random walks and applications to subdiffusive trap and barrier models
@article{EJP1831,
author = {Alessandra Faggionato},
title = {Spectral analysis of 1D nearest-neighbor random walks and applications to subdiffusive trap and barrier models},
journal = {Electron. J. Probab.},
fjournal = {Electronic Journal of Probability},
volume = {17},
year = {2012},
keywords = {random walk ; generalized differential operator ; Sturm-Liouville theory ; random trap model ; random barrier model ; self--similarity ; Dirichlet--Neumann bracketing},
abstract = {We consider a sequence $X^{(n)}$, $n \geq 1 $, of continuous-time nearest-neighbor random walks on the one dimensional lattice $\mathbb{Z}$. We reduce the spectral analysis of the Markov generator of $X^{(n)}$ with Dirichlet conditions outside $(0,n)$ to the analogous problem for a suitable generalized second order differential operator $-D_{m_n} D_x$, with Dirichlet conditions outside a giveninterval. If the measures $dm_n$ weakly converge to some measure $dm_\infty$, we prove a limit theorem for the eigenvalues and eigenfunctions of $-D_{m_n}D_x$ to the corresponding spectral quantities of $-D_{m_\infty} D_x$. As second result, we prove the Dirichlet-Neumann bracketing for the operators $-D_m D_x$ and, as a consequence, we establish lower and upper bounds for the asymptotic annealed eigenvalue counting functions in the case that $m$ is a self-similar stochastic process. Finally, we apply the above results to investigate the spectral structure of some classes of subdiffusive random trap and barrier models coming from one-dimensional physics.
},
pages = {no. 15, 1-36},
issn = {1083-6489},
doi = {10.1214/EJP.v17-1831},
url = {http://ejp.ejpecp.org/article/view/1831}}