Presentation is loading. Please wait.

Presentation is loading. Please wait.

Group Meeting Reporter: Welson T.H. Sung Date: 2008/3/5 Topic: Raman and cathodoluminescence study of dislocation in GaN.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Group Meeting Reporter: Welson T.H. Sung Date: 2008/3/5 Topic: Raman and cathodoluminescence study of dislocation in GaN."— Presentation transcript:

1 Group Meeting Reporter: Welson T.H. Sung Date: 2008/3/5 Topic: Raman and cathodoluminescence study of dislocation in GaN

2 JOURNAL OF APPLIED PHYSICS [VOLUME 92, NUMBER 11] (2002) H. Leia) and H. S. Leipner Center of Materials Science, Hoher Weg 8, Martin Luther University Halle-Wittenberg, D-06120 Halle, Germany J. Schreiber Department of Physics, Friedemann-Bach-Platz 6, Martin Luther University Halle-Wittenberg, D-06108 Halle, Germany J. L. Weyher Experimental Solid Physics III, RIM, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, The Netherlands T. Wosin´ ski Institute of Physics, Polish Academy of Sciences, aleja Lotniko´w 32/46, PL-02668 Warsaw, Poland I. Grzegory High Pressure Research Center, Polish Academy of Sciences, ulica Sokolowska 29/37, PL-01142 Warsaw, Poland

3 Outline  Motivation  Background info of Sample: GaN  Growth & Etching  Equipment & Method:  Microindenter  Raman&CL  Analyze Spectrum  Conclusion

4 Motivation  The cause of YL Band (550nm)  Intrinsic defects V Ga, dislocation  Impurity( Oxygen, Carbon)  For my further work of analyzing pillar’s spectrum

5 Background info of Sample: GaN  Growth: N-polar(0001), Wurtzite structure, 250~350 o C  Compress: Vickers, 2N, 1~20mins ( Stress induce fresh dislocation )  Etching: 200~250 o C, KOH-NaOH ( Intrinsic dislocation )

6 Equipment & Method  Micro-Raman:  Laser source: 632.8nm( green), 1um spot, 0.1cm -1  CL:  10K (For increase radiation free electron, decrease thermal radiation)  SEM-JSM6400 ( 20kV)

7 Phonon-Plasmon mode  C 6v space group(#183 P6mm)  8 phonon modes:  E 2 X2 (Stress free 567cm -1 )  A 1 (TO) (518cm -1 ) LOPP -1  E 1 (TO) (740cm -1 ) matrix  B 1 X2  A 1 (LO)  E 1 (LO)  Energy transmit between Raman and Lattice vibration

8 Analyze Spectrum

9  Intensity decrease from 1 to 4

10 Comparision (Near center)  Curves 1 (intensity X1 ) & 2(intensity X2.3 )  C1:LPP combine with A1(TO)  C2: Split: Free electron concentration  ( close to center), A1(TO) broad.  Curves 1-3 EF peak  Curves3 & 4 EF blue shifting:  Free electron concentration  X wrong  Compress stress induce

11 Comparision (Near center)  Curve 4: Broad,weak of peak E 2 (poor order)  Other:  Peak P1 P2: might be phase transformation  (wurtzite => rock-salt structure)  Raman Mapping : (E2 mode peak) compress 1.5GPa Max

12 Dislocation nonradiative recombination  Intrinsic dislocation etching pit 15um -> larger  -20% compare with Matrix

13 CL result  Source: 400~1100nm  YL: 550nm  V Ga : N-type native acceptor

14 CL spectrum Curve 1: intrinsic vacancy Curves 2~6: compress induce dislocations and vacancies(blue shift)

15 Conclusion  GaN brittle to ductile  V Ga induce edge dislocation jogging  Intensity of radiation:  recombinative recombination at vacancy  nonradiative recombination at dislocations.  Other possibility

16 Thank You for Your Attention

Download ppt "Group Meeting Reporter: Welson T.H. Sung Date: 2008/3/5 Topic: Raman and cathodoluminescence study of dislocation in GaN."

Similar presentations

Int. Conf. II-VI 2007 Coherent Raman spectroscopy of Cd 1-x Mn x Te quantum wells Lowenna Smith, Daniel Wolverson, Stephen Bingham and J. John Davies Department.

Int. Conf. II-VI 2007 Coherent Raman spectroscopy of Cd 1-x Mn x Te quantum wells Lowenna Smith, Daniel Wolverson, Stephen Bingham and J. John Davies Department.
A.V. Koudinov, Yu. G. Kusrayev A.F. Ioffe Physico-Technical Institute 194021 St.-Petersburg, Russia L. C. Smith, J. J. Davies, D. Wolverson Department.

A.V. Koudinov, Yu. G. Kusrayev A.F. Ioffe Physico-Technical Institute St.-Petersburg, Russia L. C. Smith, J. J. Davies, D. Wolverson Department.
SPATIAL CORRELATION OF INFRARED AND PL OPTICAL CENTERS IN HYDROGEN-RICH DIAMONDS Troy Ardon and Sally Eaton-Magaña Gemological Institute of America Carlsbad,

SPATIAL CORRELATION OF INFRARED AND PL OPTICAL CENTERS IN HYDROGEN-RICH DIAMONDS Troy Ardon and Sally Eaton-Magaña Gemological Institute of America Carlsbad,
Raul F. Garcia-Sanchez, Prabhakar Misra Department of Physics and Astronomy Howard University June 15, 2014 1.

Raul F. Garcia-Sanchez, Prabhakar Misra Department of Physics and Astronomy Howard University June 15,
Cathodoluminescence spectral study of alkali feldspar and plagioclase in Yamato Martian nakhlite meteorites M. Kayama 1, A. Gucsik 2, N. Matsuda 3, H.

Cathodoluminescence spectral study of alkali feldspar and plagioclase in Yamato Martian nakhlite meteorites M. Kayama 1, A. Gucsik 2, N. Matsuda 3, H.
Nanostructures Research Group Center for Solid State Electronics Research Quantum corrected full-band Cellular Monte Carlo simulation of AlGaN/GaN HEMTs.

Nanostructures Research Group Center for Solid State Electronics Research Quantum corrected full-band Cellular Monte Carlo simulation of AlGaN/GaN HEMTs.
Optical properties of infrared emission quaternary InGaAsP epilayers Y. C. Lee a,b, J. L. Shen a, and W. Y. Uen b a. Department of Computer Science and.

Optical properties of infrared emission quaternary InGaAsP epilayers Y. C. Lee a,b, J. L. Shen a, and W. Y. Uen b a. Department of Computer Science and.
Optical methods for semiconductor characterization Guillaume von Gastrow.

Optical methods for semiconductor characterization Guillaume von Gastrow.
Radiative efficiency of light-emitting materials Tim Gfroerer Davidson College, Davidson, NC - Funded by Research Corporation and the Petroleum Research.

Radiative efficiency of light-emitting materials Tim Gfroerer Davidson College, Davidson, NC - Funded by Research Corporation and the Petroleum Research.
RAMAN SPECTROSCOPY Scattering mechanisms

RAMAN SPECTROSCOPY Scattering mechanisms
Effects of Diamond Crystal Imperfection on Coherent Bremsstrahlung G. L. Yang Department of Physics and Astronomy University of Glasgow.

Effects of Diamond Crystal Imperfection on Coherent Bremsstrahlung G. L. Yang Department of Physics and Astronomy University of Glasgow.
Saturated gain in GaN epilayers studied by variable stripe length technique Rui Li Journal Club, 3.05.07 Electrical Engineering Boston University J. Mickevičiusa.

Saturated gain in GaN epilayers studied by variable stripe length technique Rui Li Journal Club, Electrical Engineering Boston University J. Mickevičiusa.
( Infrared Spectroscopy IR (FTIR) Leonid Murin 1,2 1 Joint Institute of Solid State and Semiconductor Physics, Minsk, Belarus 2 Oslo University, Centre.

( Infrared Spectroscopy IR (FTIR) Leonid Murin 1,2 1 Joint Institute of Solid State and Semiconductor Physics, Minsk, Belarus 2 Oslo University, Centre.
05/20/2008 1 High-Current Polarized Source Developments Evgeni Tsentalovich MIT.

05/20/ High-Current Polarized Source Developments Evgeni Tsentalovich MIT.
Raman Spectrum of Graphene and Graphene layers PRL 97, 187401 (2006) Sebastian Remi Journal Club 11/26/2006.

Raman Spectrum of Graphene and Graphene layers PRL 97, (2006) Sebastian Remi Journal Club 11/26/2006.
A. Abdi, T. B. Hoang, S. Mackowski, L. M. Smith and H. E. Jackson Department of Physics, University of Cincinnati, Ohio 45221-0011 J. M. Yarrison-Rice.

A. Abdi, T. B. Hoang, S. Mackowski, L. M. Smith and H. E. Jackson Department of Physics, University of Cincinnati, Ohio J. M. Yarrison-Rice.
© 2012 HORIBA Scientific. All rights reserved. Applications of Raman microspectroscopy to fluid inclusions phase identification. S. Mamedov *, R. S. Darling.

© 2012 HORIBA Scientific. All rights reserved. Applications of Raman microspectroscopy to fluid inclusions phase identification. S. Mamedov *, R. S. Darling.
Quantum Dots: Confinement and Applications

Quantum Dots: Confinement and Applications
Defects & Impurities BW, Ch. 5 & YC, Ch 4 + my notes & research papers

Defects & Impurities BW, Ch. 5 & YC, Ch 4 + my notes & research papers
Lecture 6 Raman spectra of carbon nanotubes. Infrared (IR) spectroscopy IR 700 nm3500 nm400 nm Visible light IR IR spectra can be used to identify the.

Lecture 6 Raman spectra of carbon nanotubes. Infrared (IR) spectroscopy IR 700 nm3500 nm400 nm Visible light IR IR spectra can be used to identify the.

Similar presentations

Ads by Google