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Growth modes of InN(000-1) on GaN buffer layers on sapphire

Journal Article · · Journal of Vacuum Science and Technology A
DOI:https://doi.org/10.1116/1.1864056· OSTI ID:841069
 [1]; ; ;
  1. LBNL Library
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In this work, using atomic force microscopy and scanning tunneling microscopy, we study the surface morphologies of epitaxial InN films grown by plasma-assisted molecular beam epitaxy with intervening GaN buffer layers on sapphire substrates. On smooth GaN buffer layers, nucleation and evolution of three-dimensional InN islands at various coverages and growth temperatures are investigated. The shapes of the InN islands are observed to be predominantly mesa-like with large flat (000-1) tops, which suggests a possible role of indium as a surfactant. Rough GaN buffer layers composed of dense small GaN islands are found to significantly improve uniform InN wetting of the substrates, on which atomically smooth InN films are obtained that show the characteristics of step-flow growth. Scanning tunneling microscopy imaging reveals the defect-mediated surface morphology of smooth InN films, including surface terminations of screw dislocations and a high density of shallow surface pits with depths less than 0.3 nm. The mechanisms of the three-dimensional island size and shape evolution and formation of defects on smooth surfaces are considered.
Research Organization:
Ernest Orlando Lawrence Berkeley National Laboratory, Berkeley, CA (US)
Sponsoring Organization:
USDOE Director. Office of Science. Office of Basic Energy Sciences (US)
DOE Contract Number:
AC03-76SF00098
OSTI ID:
841069
Report Number(s):
LBNL--56912
Journal Information:
Journal of Vacuum Science and Technology A, Journal Name: Journal of Vacuum Science and Technology A Journal Issue: 2 Vol. 23
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
75 CONDENSED MATTER PHYSICS
SUPERCONDUCTIVITY AND SUPERFLUIDITY
ATOMIC FORCE MICROSCOPY
BUFFERS
DEFECTS
INDIUM
MOLECULAR BEAM EPITAXY
MORPHOLOGY
NUCLEATION
SAPPHIRE
SCANNING TUNNELING MICROSCOPY
SCREW DISLOCATIONS
SHAPE
SUBSTRATES