Interlayer tunneling in graphite mesa-type structures is studied at a strong in-plane magnetic field H up to 55 T and low temperature T = 1.4 K. The tunneling spectrum dI/dV vs. V has a pronounced peak at a finite voltage V 0. The peak position V 0 increases linearly with H. To explain the experiment, we develop a theoretical model of graphite in the crossed electric E and magnetic H fields. When the fields satisfy the resonant condition E = vH, where V is the velocity of the two-dimensional Dirac electrons in graphene, the wave functions delocalize and give rise to the peak in the tunneling spectrum observed in the experiment. © 2013 EDP Sciences and Springer.
CITATION STYLE
Latyshev, Y. I., Orlov, A. P., Monceau, P., Vignolles, D., Pershoguba, S. S., & Yakovenko, V. M. (2013). Interlayer tunneling spectroscopy of graphite at high magnetic field oriented parallel to the layers. European Physical Journal: Special Topics, 222(5), 1257–1262. https://doi.org/10.1140/epjst/e2013-01919-7
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