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S.D. Barber

Identifiers

  • name variant S.D. Barber 0.60 · backfill

Papers (17)

  1. Streamlined Inexpensive Integration of a Growth Facility and Scanning Tunneling Microscope for in situ Characterization cond-mat.mes-hall · 2015 · author #3
  2. Controlling Mn Depth Profiles in GaMnAs During High-Temperature Molecular Beam Epitaxial Growth cond-mat.mes-hall · 2015 · author #4
  3. Giant Surface Charge Density of Graphene Resolved From Scanning Tunneling Microscopy and First-Principles Theory cond-mat.mes-hall · 2015 · author #3
  4. Atomic Control of Strain in Freestanding Graphene cond-mat.mes-hall · 2015 · author #3
  5. High-Percentage Success Method for Preparing and Pre-Evaluating Tungsten Tips for Atomic-Resolution Scanning Tunneling Microscopy cond-mat.mes-hall · 2015 · author #3
  6. A Pathway between Bernal and Rhombohedral Stacked Graphene Layers with Scanning Tunneling Microscopy cond-mat.mes-hall · 2015 · author #4
  7. Schottky barrier and attenuation length for hot hole injection in non-epitaxial Au on p-type GaAs cond-mat.mes-hall · 2015 · author #5
  8. Electromechanical properties of freestanding graphene functionalized with tin oxide (SnO2) nanoparticles cond-mat.mes-hall · 2015 · author #5
  9. Electronic transition from graphite to graphene via controlled movement of the top layer with scanning tunneling microscopy cond-mat.mes-hall · 2015 · author #4
  10. New Scanning Tunneling Microscopy Technique Enables Systematic Study of the Unique Electronic Transition from Graphite to Graphene cond-mat.mes-hall · 2015 · author #3
  11. Broad frequency and amplitude control of vibration in freestanding graphene via scanning tunneling microscopy with calculated dynamic pseudo-magnetic fields cond-mat.mes-hall · 2015 · author #3
  12. Graphene Manipulation on 4H-SiC(0001) Using Scanning Tunneling Microscopy cond-mat.mes-hall · 2015 · author #3
  13. Atomic-Scale Movement Induced in Nano-Ridges by Scanning Tunneling Microscopy on Epitaxial Graphene Grown on 4H-SiC(0001) cond-mat.mes-hall · 2015 · author #2
  14. Role of bias voltage and tunneling current in the perpendicular displacements of freestanding graphene via scanning tunneling microscopy cond-mat.mes-hall · 2015 · author #2
  15. Etch-stop method for reliably fabricating sharp yet mechanically stable scanning tunneling microscope tips cond-mat.mes-hall · 2015 · author #4
  16. Competing scanning tunneling microscope tip-interlayer interactions for twisted multilayer graphene on the a-plane SiC surface cond-mat.mes-hall · 2015 · author #3
  17. Thermal mirror buckling in freestanding graphene locally controlled by scanning tunneling microscopy cond-mat.mes-hall · 2014 · author #5

Mentions

  • 1502.03460 #3 · backfill · confidence 0.70 S.D. Barber
  • 1502.02967 #4 · backfill · confidence 0.70 S.D. Barber
  • 1502.02568 #3 · backfill · confidence 0.70 S.D. Barber
  • 1502.01931 #3 · backfill · confidence 0.70 S.D. Barber
  • 1502.01641 #3 · backfill · confidence 0.70 S.D. Barber
  • 1502.01239 #4 · backfill · confidence 0.70 S.D. Barber
  • 1502.01010 #5 · backfill · confidence 0.70 S.D. Barber
  • 1502.00613 #5 · backfill · confidence 0.70 S.D. Barber
  • 1501.07827 #4 · backfill · confidence 0.70 S.D. Barber
  • 1501.07534 #3 · backfill · confidence 0.70 S.D. Barber
  • 1501.07263 #3 · backfill · confidence 0.70 S.D. Barber
  • 1501.06903 #3 · backfill · confidence 0.70 S.D. Barber
  • 1501.05862 #2 · backfill · confidence 0.70 S.D. Barber
  • 1501.05556 #2 · backfill · confidence 0.70 S.D. Barber
  • 1501.05199 #4 · backfill · confidence 0.70 S.D. Barber
  • 1501.04872 #3 · backfill · confidence 0.70 S.D. Barber
  • 1412.8389 #5 · backfill · confidence 0.70 S.D. Barber

Frequent Coauthors