Appearance and suppression of electron interference patterns on the surface of Ho_{0.05}Bi_{1.95}Se_{3}

Hyeokshin Kwon; Wonhee Ko; Insu Jeon; Hyo Won Kim; JiYeon Ku; Youngtek Oh; Paul Syers; Johnierre Paglione; Sung Woo Hwang; Hwansoo Suh

Appearance and suppression of electron interference patterns on the surface of Ho$_{0.05}$Bi$_{1.95}$Se$_{3}$

ORAL

Abstract

We present study on the surface property of a magnetically doped topological insulator, Ho$_{0.05}$Bi$_{1.95}$Se$_{3}$. By using scanning tunneling microscopy (STM) and spectroscopy (STS), we obtained topographic images with several distinct types of defects, some of which originate from Holmium dopant atoms and conductance maps at various bias voltages. It is found that conductance maps in the upper and lower branches of helical Dirac cone show interference patterns around the defects. Interestingly, the interference patterns were substantially suppressed in the range of 40 meV close to the Dirac point. Our analysis shows that the surface states of Ho$_{0.05}$Bi$_{1.95}$Se$_{3}$ behave differently than other magnetically doped topological insulators.

March 5, 2014, 11:15 AM – March 5, 2014, 11:27 AM

Authors

Hyeokshin Kwon
- Samsung Advanced Institute of Technology
Wonhee Ko
- Samsung Advanced Institute of Technology
Insu Jeon
- Samsung Advanced Institute of Technology
Hyo Won Kim
- Samsung Advanced Institute of Technology
JiYeon Ku
- Samsung Advanced Institute of Technology
Youngtek Oh
- Samsung Advanced Institute of Technology
Paul Syers
- University of Maryland, College Park
Johnierre Paglione
- University of Maryland
- University of Maryland, College Park
- Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland
- University of Mayland
- Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, MD 20742
- Univ of Maryland-College Park
Sung Woo Hwang
- Samsung Advanced Institute of Technology
Hwansoo Suh
- Samsung Advanced Institute of Technology