Authors
Thiti Taychatanapat, Jun You Tan, Yuting Yeo, Kenji Watanabe, Takashi Taniguchi, Barbaros Özyilmaz
Publication date
2015/2/5
Journal
Nature communications
Volume
6
Issue
1
Pages
6093
Publisher
Nature Publishing Group UK
Description
The realization of p–n junctions in graphene, combined with the gapless and chiral nature of its massless Dirac fermions has led to the observation of many intriguing phenomena such as the quantum Hall effect in the bipolar regime, Klein tunnelling and Fabry–Pérot interferences, all of which involve electronic transport across p–n junctions. Ballistic snake states propagating along the p–n junctions have been predicted to induce conductance oscillations, manifesting their twisting nature. However, transport studies along p–n junctions have so far only been performed in low mobility devices. Here, we report the observation of conductance oscillations due to ballistic snake states along a p–n interface in high-quality graphene encapsulated by hexagonal boron nitride. These snake states are exceptionally robust as they can propagate over 12 μm, limited only by the size of our sample, and survive up to at least 120 …
Scholar articles
T Taychatanapat, JY Tan, Y Yeo, K Watanabe… - Nature communications, 2015