Quantum Coherent Transport in a Synthetic Single Molecule Transistor

Laura Collins; David Green; Anthony Ruth; Boldizsar Janko; Kenjiro Gomes

Quantum Coherent Transport in a Synthetic Single Molecule Transistor

ORAL

Abstract

The use of synthetic quantum systems makes it possible to study phenomena that cannot be probed by conventional experiments. We created synthetic molecules using atomic manipulation, and used a synthetic molecule to design and assemble a prototype synthetic single molecule transistor. We directly imaged the change in coherence using tunneling spectroscopy, and utilized quasiparticle scattering to visualize an electronic connection between the source and drain of our prototype single molecule transistor.

March 8, 2018, 10:36 AM – March 8, 2018, 10:48 AM

Presenters

Laura Collins
- Univ of Notre Dame
- Physics, Univ of Notre Dame

Authors

Laura Collins
- Univ of Notre Dame
- Physics, Univ of Notre Dame
David Green
- Univ of Notre Dame
- Physics, Univ of Notre Dame
Anthony Ruth
- Univ of Notre Dame
- Physics, Univ of Notre Dame
Boldizsar Janko
- University of Notre Dame
- Univ of Notre Dame
- Physics, Univ of Notre Dame
Kenjiro Gomes
- Univ of Notre Dame
- Physics, Univ of Notre Dame