Interaction-induced shift of the cyclotron resonance of graphene using infrared spectroscopy

E. A. Henriksen; H. L. Stormer; L.-C. Tung; M. E. Schwartz; M. Takita; P. Cadden-Zimansky; P. Kim; Y.-J. Wang; Z. Jiang; Z. Q. Li

arxiv: 0910.4575 · v2 · submitted 2009-10-23 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci

Interaction-induced shift of the cyclotron resonance of graphene using infrared spectroscopy

E. A. Henriksen , P. Cadden-Zimansky , Z. Jiang , Z. Q. Li , L.-C. Tung , M. E. Schwartz , M. Takita , Y.-J. Wang

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P. Kim H. L. Stormer

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classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci

keywords energygraphenelevelcyclotronkohnmagneticresonanceshifts

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We report a study of the cyclotron resonance (CR) transitions to and from the unusual $n=0$ Landau level (LL) in monolayer graphene. Unexpectedly, we find the CR transition energy exhibits large (up to 10%) and non-monotonic shifts as a function of the LL filling factor, with the energy being largest at half-filling of the $n=0$ level. The magnitude of these shifts, and their magnetic field dependence, suggests that an interaction-enhanced energy gap opens in the $n=0$ level at high magnetic fields. Such interaction effects normally have limited impact on the CR due to Kohn's theorem [W. Kohn, Phys. Rev. {\bf 123}, 1242 (1961)], which does not apply in graphene as a consequence of the underlying linear band structure.

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Interaction-induced shift of the cyclotron resonance of graphene using infrared spectroscopy

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