Strain-Induced Pseudo–Magnetic Fields Greater Than 300 Tesla in Graphene Nanobubbles-Reference-Cited by-同舟云学术

Strain-Induced Pseudo–Magnetic Fields Greater Than 300 Tesla in Graphene Nanobubbles

Published:2010-07-30 Issue:5991 Volume:329 Page:544-547
ISSN:0036-8075
Container-title:Science
language:en
Short-container-title:Science

Author:

Levy N.¹²,Burke S. A.¹,Meaker K. L.¹,Panlasigui M.¹,Zettl A.¹²,Guinea F.³,Neto A. H. Castro⁴,Crommie M. F.¹²

Affiliation:

1. Department of Physics, University of California Berkeley, Berkeley, CA 94720, USA.

2. Materials Science Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA.

3. Instituto de Ciencia de Materiales de Madrid (CSIC), Madrid 28049, Spain.

4. Department of Physics, Boston University, Boston, MA 02215, USA.

Abstract

Straining Graphene's Electronic States The conduction electrons in graphene, single sheets of graphite, can have very high mobilities. Under the influence of an applied magnetic field, a series of energy steps, or Landau levels, can be observed that correspond to the conduction electrons traveling in cyclotron orbits. Recent theoretical work has indicated that if graphene layers are strained, the strain field creates a pseudomagnetic field that should also lead to observable Landau levels. Levy et al. (p. 544 ) used scanning tunneling microscopy to probe the energy levels of graphene grown on a platinum surface, which forms highly strained “nanobubbles.” The strain is equivalent to applying very high magnetic fields (in excess of 300 tesla). Thus, the electronic properties of graphene can indeed be modified using applied strain.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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