Towards correlated electron states in trilayer-graphene Moiré band
ORAL
Abstract
The recent discovery of Moiré superconductivity in twisted-bilayer graphene (tBLG) and twisted-double bilayer-graphene (tDBG) systems [1][2][3] has generated a great amount of interest in the condensed matter community. Beyond this model system, this work focuses on studying a new Moiré platform based on the twisted trilayer-graphene. Preliminary magneto-transport measurements will be presented. Characterization of interlayer screening, band evolution with displacement field and Moiré periodicity will also be discussed.
[1] Yuan Cao et al, Nature 556, 43-50 (2018).
[2] Xiaomeng Liu et al, arXiv 1903.08130 (2019).
[3] Xiaobo Lu et al, arXiv 1903.06513 (2019).
[1] Yuan Cao et al, Nature 556, 43-50 (2018).
[2] Xiaomeng Liu et al, arXiv 1903.08130 (2019).
[3] Xiaobo Lu et al, arXiv 1903.06513 (2019).
–
Presenters
-
Kan-Ting Tsai
University of Minnesota
Authors
-
Kan-Ting Tsai
University of Minnesota
-
Xi Zhang
University of Minnesota
-
Ziyan Zhu
Harvard University
-
Stephen Carr
Harvard University
-
Mitchell Luskin
University of Minnesota, Twin Cities, University of Minnesota
-
Philip Kim
Harvard University, Harvard Univ, Physics, Harvard University
-
Efthimios Kaxiras
Harvard University, Department of Physics, Harvard University
-
Ke Wang
University of Minnesota