Imaging strain-localized exciton states in nanoscale bubbles in monolayer transition metal dichalcogenides at room temperature

Thomas Darlington; Christian Carmesin; Mathias Florian; Emanuil Yanev; Demi Ajayi; Jenny Ardelean; Augusto Ghiotto; Andrey Krayev; Jeffrey Kysar; Abhay Pasupathy; James C Hone; Frank Jahnke; Nicholas J Borys; P. James Schuck

Imaging strain-localized exciton states in nanoscale bubbles in monolayer transition metal dichalcogenides at room temperature

ORAL

Abstract

In monolayer transition metal dichalcogenides (1L-TMD’s), applied strain can deterministically create quantum emitters at arbitrary sites on-demand. Despite a robust empirical correlation with strain, the nanoscopic details of these quantum emitters are poorly understood. Here we combine room-temperature nano-optical imaging of excitons in nanobubbles in 1L-WSe₂ with atomistic structural models to elucidate how strain induces the nanoscale confinement potentials that give rise to highly localized exciton states in 2D semiconductors. Nano-optical imaging reveals localized excitons on length scales of ~10 nm at multiple sites along the periphery of individual nanobubbles, which is in stark contrast to predictions of continuum strain models. These results agree with theoretical confinement potentials derived from measured topographies of nanobubbles. We reproduce these findings in nanobubbles of low-defect WSe₂ and MoSe₂, suggesting our results are applicable to excitons in all the semiconducting 1L-TMD’s. Our results provide one-of-a-kind insight of how strain-induced confinement—without crystalline defects—can localize excitons on length scales commensurate with exciton size, providing key nanoscale structure-property information for quantum emitter phenomena in 1L-TMD’s.

March 4, 2020, 11:27 AM – March 4, 2020, 11:39 AM

Presenters

Thomas Darlington
- Columbia University
- University of California, Berkeley
- Mechanical Engineering, Columbia University

Authors

Thomas Darlington
- Columbia University
- University of California, Berkeley
- Mechanical Engineering, Columbia University
Christian Carmesin
- Institute for Theoretical Physics, University of Bremen
Mathias Florian
- Institute for Theoretical Physics, University of Bremen
Emanuil Yanev
- Columbia University
- Mechanical Engineering, Columbia University
Demi Ajayi
- Mechanical Engineering, Columbia University
Jenny Ardelean
- Mechanical Engineering, Columbia University
Augusto Ghiotto
- Columbia University
- Columbia Univ
- Physics, Columbia University
- Department of Physics, Columbia University
Andrey Krayev
- HORIBA Scientific
- Horiba Scientific
Jeffrey Kysar
- Mechanical Engineering, Columbia University
Abhay Pasupathy
- Columbia University
- Physics Department, Columbia University
- Columbia Univ
- Department of Physics, Columbia University, New York, New York 10027, USA
- Physics, Columbia University
- Department of Physics, Columbia University
James C Hone
- Columbia University
- Mechanical Engineering, Columbia University
- Columbia Univ
- Physics, Columbia University
- Columbia University, NY, USA
- Department of Mechanical Engineering, Columbia University
Frank Jahnke
- Institute for Theoretical Physics, University of Bremen
Nicholas J Borys
- Montana State University
- Department of Physics, Montana State University
- Montana State University, Bozeman
P. James Schuck
- Columbia University
- Mechanical Engineering, Columbia University