Journal
PHYSICAL REVIEW B
Volume 84, Issue 22, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.84.220401
Keywords
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Funding
- US DOE [DE-AC02-98CH10886]
- DOE NNSA [DEFG52-10NA29659]
- NSF [DMR-0654118]
- state of Florida
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We report two-dimensional quantum transport in SrMnBi2 single crystals. The linear energy dispersion leads to unusual nonsaturated linear magnetoresistance since all Dirac fermions occupy the lowest Landau level in the quantum limit. The transverse magnetoresistance exhibits a crossover at a critical field B* from semiclassical weak-field B-2 dependence to the high-field linear-field dependence. With an increase in temperature, the critical field B* increases and the temperature dependence of B* satisfies the quadratic behavior which is attributed to the Landau-level splitting of the linear energy dispersion. The effective magnetoresistant mobility mu(MR) similar to 3400 cm(2)/Vs is derived. Angular-dependent magnetoresistance and quantum oscillations suggest dominant two-dimensional (2D) Fermi surfaces. Our results illustrate the dominant 2D Dirac fermion states in SrMnBi2 and imply that bulk crystals with Bi square nets can be used to study low-dimensional electronic transport commonly found in 2D materials such as graphene.
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