Transport Measurements to probe Electronic States of Semiconducting and Metallic Graphene Nanoribbons
ORAL
Abstract
Graphene nanoribbons (GNRs) have unique electronic properties that can potentially be used to develop electron spin-based qubits. The LaAlO3/SrTiO3 (LAO/STO) correlated nanoelectronics platform [1] enables single GNRs to be addressed both optically and electrically. Here we use a LAO/STO-based sketched waveguide [2] to probe the energy structure of GNRs. By coupling the conducting channel with GNRs we can study the transport properties of semiconducting versus metallic GNRs. These GNRs are expected to be influenced by local electric fields from proximal sketched gates as well as global magnetic fields which can Zeeman split the energy states. This information is complementary to other probes, e.g., THz spectroscopy [3] and STM which also provide detailed information about the electronic structures of these GNR-based spin qubit candidates.
[1] Cen, C., et al. Science 323, 1026–1030 (2009)
[2] Anaddi, A. et al. Nano Lett. 18, 7, 4473-4481 (2018)
[3] Sheridan, E. et al. APL Materials 9, 071101 (2021)
[1] Cen, C., et al. Science 323, 1026–1030 (2009)
[2] Anaddi, A. et al. Nano Lett. 18, 7, 4473-4481 (2018)
[3] Sheridan, E. et al. APL Materials 9, 071101 (2021)
*JL, CBE, and AS acknowledge ONR MURI N00014-21-1-2437. CBE acknowledges the Gordon and Betty Moore Foundation’s EPiQS Initiative, Grant GBMF9065 and a Vannevar Bush Faculty Fellowship (ONR N00014-20-1-2844). Transport measurement at the University of Wisconsin–Madison was supported by the US Department of Energy (DOE), Office of Science, Office of Basic Energy Sciences (BES), under award number DE-FG02-06ER46327.
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Presenters
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Juliana Sebolt
- University of Pittsburgh