Final report on LDRD project : outstanding challenges for AlGaInN MOCVD.

Mitchell, Christine Charlotte; Follstaedt, David Martin; Russell, Michael J; Cross, Karen Charlene; Wang, George T; Creighton, James Randall; Allerman, Andrew Alan; Koleske, Daniel David; Lee, Stephen Roger; Coltrin, Michael Elliott

doi:10.2172/922744

Title: Final report on LDRD project : outstanding challenges for AlGaInN MOCVD.

Technical Report · Tue Mar 01 00:00:00 EST 2005

DOI:https://doi.org/10.2172/922744· OSTI ID:922744

Mitchell, Christine Charlotte; Follstaedt, David Martin; Russell, Michael J; Cross, Karen Charlene; Wang, George T; Creighton, James Randall; Allerman, Andrew Alan; Koleske, Daniel David; Lee, Stephen Roger; Coltrin, Michael Elliott

The AlGaInN material system is used for virtually all advanced solid state lighting and short wavelength optoelectronic devices. Although metal-organic chemical vapor deposition (MOCVD) has proven to be the workhorse deposition technique, several outstanding scientific and technical challenges remain, which hinder progress and keep RD&A costs high. The three most significant MOCVD challenges are: (1) Accurate temperature measurement; (2) Reliable and reproducible p-doping (Mg); and (3) Low dislocation density GaN material. To address challenge (1) we designed and tested (on reactor mockup) a multiwafer, dual wavelength, emissivity-correcting pyrometer (ECP) for AlGaInN MOCVD. This system simultaneously measures the reflectance (at 405 and 550 nm) and emissivity-corrected temperature for each individual wafer, with the platen signal entirely rejected. To address challenge (2) we measured the MgCp{sub 2} + NH{sub 3} adduct condensation phase diagram from 65-115 C, at typical MOCVD concentrations. Results indicate that it requires temperatures of 80-100 C in order to prevent MgCp{sub 2} + NH{sub 3} adduct condensation. Modification and testing of our research reactor will not be complete until FY2005. A new commercial Veeco reactor was installed in early FY2004, and after qualification growth experiments were conducted to improve the GaN quality using a delayed recovery technique, which addresses challenge (3). Using a delayed recovery technique, the dislocation densities determined from x-ray diffraction were reduced from 2 x 10{sup 9} cm{sup -2} to 4 x 10{sup 8} cm{sup -2}. We have also developed a model to simulate reflectance waveforms for GaN growth on sapphire.

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Research Organization:: Sandia National Laboratories (SNL), Albuquerque, NM, and Livermore, CA (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC04-94AL85000

OSTI ID:: 922744

Report Number(s):: SAND2005-1408; TRN: US200806%%247

Country of Publication:: United States

Language:: English

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Related Subjects

36 MATERIALS SCIENCE
ADDUCTS
CHEMICAL VAPOR DEPOSITION
DEPOSITION
DISLOCATIONS
MOCKUP
MODIFICATIONS
PHASE DIAGRAMS
PYROMETERS
RESEARCH REACTORS
SAPPHIRE
TEMPERATURE MEASUREMENT
TESTING
WAVE FORMS
WAVELENGTHS
X-RAY DIFFRACTION
Temperature.
Crystal growth
Wafers-Processing

Title: Final report on LDRD project : outstanding challenges for AlGaInN MOCVD.

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