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Related Concept Videos

Atomic Emission Spectroscopy: Interference01:30

Atomic Emission Spectroscopy: Interference

In atomic emission spectroscopy (AES), high-temperature atomizers excite a broad range of elements and molecules that generate complex emissions from sources such as oxides, hydroxides, and flame combustion products in the flame or plasma. Several strategies can be employed to minimize spectral interferences caused by overlapping emission lines or bands. These include increasing instrument resolution, choosing alternative emission lines, optimally placing the detector in low-background regions,...

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Scattering and interference in epitaxial graphene.

G M Rutter1, J N Crain, N P Guisinger

  • 1School of Physics, Georgia Institute of Technology, Atlanta, GA 30332, USA.

Science (New York, N.Y.)
|July 14, 2007
PubMed
Summary

Graphene

Area of Science:

  • Condensed matter physics
  • Materials science

Background:

  • Graphene's unique electronic properties stem from quantum symmetries.
  • Defects are crucial for understanding graphene's transport properties and future electronics.

Purpose of the Study:

  • Investigate the impact of atomic-scale lattice defects on quasiparticle interference in graphene.
  • Analyze how defects influence scattering and electronic properties.

Main Methods:

  • Utilized scanning tunneling spectroscopy (STS).
  • Measured quasiparticle interference patterns in epitaxial graphene on SiC(0001).
  • Generated energy-resolved maps of the local density of states.

Main Results:

  • Observed modulations on two length scales, indicating intravalley and intervalley scattering.

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  • Demonstrated that atomic-scale defects cause mixing of different symmetry wave functions.
  • Showed that defect-induced scattering can overcome symmetry-protected suppression.
  • Conclusions:

    • Atomic-scale defects significantly alter graphene's electronic transport by mixing wave functions.
    • Understanding defect-mediated scattering is key for advanced carbon-based electronics.