Characterization of Stress Relaxation, Dislocations and Crystallographic Tilt Via X-ray Microdiffraction in GaN (0001) Layers Grown by Maskless Pendeo-Epitaxy

Barabash, Rozaliya; Ice, Gene E; Liu, Wenjun; Einfeldt, S.; Hommel, D.; Roskowski, A. M.; Davis, R. F.

Title: Characterization of Stress Relaxation, Dislocations and Crystallographic Tilt Via X-ray Microdiffraction in GaN (0001) Layers Grown by Maskless Pendeo-Epitaxy

Conference · Sat Jan 01 00:00:00 EST 2005

OSTI ID:930693

Barabash, Rozaliya ^[1]; Ice, Gene E ^[1]; Liu, Wenjun ^[1]; Einfeldt, S. ^[2]; Hommel, D. ^[2]; Roskowski, A. M. ^[3]; Davis, R. F. ^[3]

ORNL
University of Bremen, Bremen, Germany
North Carolina State University

Intrinsic stresses due to lattice mismatch and high densities of threading dislocations and extrinsic stresses resulting from the mismatch in the coefficients of thermal expansion are present in almost all III-Nitride heterostructures. Stress relaxation in the GaN layers occurs in conventional and in pendeo-epitaxial films via the formation of additional misfit dislocations, domain boundaries, elastic strain and wing tilt. Polychromatic X-ray microdiffraction, high resolution monochromatic X-ray diffraction and finite element simulations have been used to determine the distribution of strain, dislocations, sub-boundaries and crystallographic wing tilt in uncoalesced and coalesced GaN layers grown by maskless pendeo-epitaxy. An important parameter was the width-to-height ratio of the etched columns of GaN from which the lateral growth of the wings occurred. The strain and tilt across the stripes increased with the width-to-height ratio. Tilt boundaries formed in the uncoalesced GaN layers at the column/wing interfaces for samples with a large ratio. Sharper tilt boundaries were observed at the interfaces formed by the coalescence of two laterally growing wings. The wings tilted upward during cooling to room temperature for both the uncoalesced and the coalesced GaN layers. It was determined that finite element simulations that account for extrinsic stress relaxation can explain the experimental results for uncoalesced GaN layers. Relaxation of both extrinsic and intrinsic stress components in the coalesced GaN layers contribute to the observed wing tilt and the formation of sub-boundaries.

OSTI does not have a digital full text copy available. For more information, please see document availability, search WorldCat, or search Google Scholar.

Cite

Export

Save

Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE Office of Science (SC)

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 930693

Resource Relation:: Conference: MRS 2005 Spring Proceedings, San Francisco, CA, USA, 20050328, 20050401

Country of Publication:: United States

Language:: English

Similar Records

Characterization of Stress Relaxation, Dislocations and Crystallographic Tilt Via X-ray Microdiffraction in GaN (0001) Layers Grown by Maskless Pendeo-Epitaxy

Conference · Fri Jun 25 00:00:00 EDT 2010 · OSTI ID:930693

Barabash, R I; Ice, G E; Liu, W; +4 more

Local Strain, Defects and Crystallographic Tilt in GaN(0001) Layers Grown by Maskless Pendeo-epitaxy from X-ray Microdiffraction

Journal Article · Tue Jul 13 00:00:00 EDT 2010 · J. Appl. Phys. · OSTI ID:930693

Barabash, R I; Ice, G E; Liu, W; +3 more

Characterization of Crystallographic Properties and Defects VIA X-ray Microdiffraction in GaN (0001) Layers

Journal Article · Sun Jan 01 00:00:00 EST 2006 · Physica Status Solidi A · OSTI ID:930693

Barabash, Rozaliya; Barabash, Oleg M; Ice, Gene E; +8 more

Related Subjects

36 MATERIALS SCIENCE
GALLIUM NITRIDES
DISLOCATIONS
STRESS RELAXATION
THERMAL EXPANSION
X-RAY DIFFRACTION
MICROANALYSIS
EPITAXY
FINITE ELEMENT METHOD

Title: Characterization of Stress Relaxation, Dislocations and Crystallographic Tilt Via X-ray Microdiffraction in GaN (0001) Layers Grown by Maskless Pendeo-Epitaxy

Citation Formats

Similar Records

Related Subjects