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Magnetoresistance (MR) of twisted bilayer graphene on electron transparent substrate
Hong, S.J.,Rodriguez-Manzo, J.A.,Kim, K.H.,Park, M.,Baek, S.J.,Kholin, D.I.,Lee, M.,Choi, E.S.,Jeong, D.H.,Bonnell, D.A.,Mele, E.J.,Drndic, M.,Johnson, A.,Park, Y.W. Elsevier Sequoia] 2016 Synthetic metals Vol.216 No.-
We studied the magnetoresistance (MR) of twisted bilayer graphene (tBLG) on electron transparent substrate. Samples of tBLG were assembled on free-standing silicon nitride (SiN<SUB>x</SUB>) membranes (<100nm thick) by transferring chemical vapor deposition (CVD)-grown single layer graphene (SLG) twice; this allowed the measurement of the angle of rotation between the two layers, the twist angle, by electron diffraction using a transmission electron microscope (TEM). To compare with the previous reports on tBLG, we performed Raman spectroscopy on our samples. We measured the MR of tBLG for two different twist angles: 2<SUP>o</SUP> (small) and 18<SUP>o</SUP> (large). The MR showed superposition of two Shubnikov de Haas (SdH) oscillations for both angles. An analysis of the oscillation peaks by Landau fan diagrams showed difference as twist angle. While the large twist angle (18<SUP>o</SUP>) sample had two anomalous π Berry's phases, the small twist angle (2<SUP>o</SUP>) sample had conventional 2π and anomalous π Berry's phase depending on carrier density.