2017 CAP Congress / Congrès de l'ACP 2017

Seeing the strongly-correlated zero-bias anomaly in double quantum dot measurements

30 May 2017, 12:00

15m

BioSci 1102 (Queen's University)

CLOSED - Oral (Non-Student) / orale (non-étudiant) Condensed Matter and Materials Physics / Physique de la matière condensée et matériaux (DCMMP-DPMCM) T2-1 Computational and Theoretical Condensed Matter (DCMMP) | Matière condensée numérique et théorique (DPMCM)

Speaker

Rachel Wortis (Trent University)

Description

The combination of disorder and interactions generally leads to a suppression in the single-particle density of states in bulk electronic systems. Numerical studies of the Anderson-Hubbard model point to a unique zero-bias anomaly in strongly correlated materials with a width proportional to the inter-site hopping amplitude $t$. A zero-bias anomaly with the same parameter dependence also appears in ensembles of two-site systems. We describe how this zero-bias anomaly in two-site systems is reflected in existing data from double quantum dots, and we propose a method to see the zero bias anomaly explicitly, emphasizing that it is a unique signature of the presence of strong correlations.

Presentation materials

cap17slides1wortis.pdf