Moving frame theory of zero-bias photocurrent on the surface of topological insulators
| Autor: | Jafari, S. A. |
|---|---|
| Rok vydání: | 2023 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Motivated by observations of zero-biased photocurrent on the surface of topological insulators, we show that the in-plane effective magnetic field $\tilde B$ implements a moving frame transformation on the topological insulators' helical surface states. As a result, photo-excited electrons on the surface undergo a Galilean boost proportional to the effective in-plane magnetic field $\tilde B$. The boost velocity is transversely proportional to $\tilde B$. This explains why the experimentally observed photocurrent depends linearly on $\tilde B$. Our theory while consistent with the observation that at leading order the effect does not depend on the polarization of the incident radiation, at next leading order in $\tilde B$ predicts a polarization dependence in both parallel and transverse directions to the polarization. We also predict two induced Fermi surface effects that can serve as further confirmation of our moving frame theory. Based on the estimated value $\zeta\approx 0.34$ of the tilt parameter for a magnetic fields of $\tilde B\sim 3$T, our geometric picture qualifies the surface Dirac cone of magnetic topological insulators as an accessible platform for the synthesis and experimental investigation of strong synthetic gravitational phenomena. Comment: 5 pages, no fig |
| Databáze: | arXiv |
| Externí odkaz: |
|