We have used confocal Raman microscopy to investigate lateral epitaxially overgrown (LEO) GaN on sapphire substrates. The one-phonon Raman spectra are consistent with pyramidal growth of the GaN before coalescence has occurred. The position and asymmetric line shape of the longitudinal optical (LO) phonon demonstrate that the LEO GaN is doped. The dopant is most likely Si from the SiN mask used to produce the LEO GaN. The carrier concentration is estimated to be We have also used Raman microscopy to spatially resolve the yellow emission from different regions of the LEO GaN.
REFERENCES
1.
A.
Sakai
, H.
Sunakawa
, and A.
Usui
, Appl. Phys. Lett.
71
, 2259
(1997
).2.
T. S.
Zheleva
, O.
Nam
, M. D.
Brenser
, and R. F.
Davis
, Appl. Phys. Lett.
71
, 2472
(1997
).3.
4.
D.
Kapolnek
, S.
Keller
, R.
Vetury
, R. D.
Underwood
, P.
Kozodoy
, S. P.
DenBaars
, and U. K.
Mishra
, Appl. Phys. Lett.
71
, 1204
(1997
).5.
S. Haffouz, B. Beaumont, and P. Gibart, MRS Internet J. Nitride Semicond. Res. 3 (1998).
6.
A.
Sakai
, H.
Sunakawa
, and A.
Usui
, Appl. Phys. Lett.
73
, 481
(1998
).7.
O.-H.
Nam
, T. S.
Zheleva
, M. D.
Bremser
, and R. F.
Davis
, J. Electron. Mater.
27
, 233
(1998
).8.
X.
Li
, A. M.
Jones
, S. D.
Roh
, D. A.
Turnbull
, S. G.
Bishop
, and J. J.
Coleman
, J. Electron. Mater.
26
, 306
(1997
).9.
Z. Yu, M. A. L. Johnson, T. McNulty, J. D. Brown, J. J. W. Cook, and J. F. Schetzina, MRS Internet J. Nitride Semicond. Res. 3 (1998).
10.
H. Marchand, J. P. Ibbetson, P. T. Fini, P. Kozodoy, S. Keller, S. DenBaars, J. S. Speck, and U. K. Mishra, MRS J. Nitride Semicond. Res. 3 (1998).
11.
J. A.
Freitas
, O.
Nam
, T. S.
Zheleva
, and R. F.
Davis
, J. Cryst. Growth
189/190
, 92
(1998
).J. A.
Freitas
, O.-H.
Nam
, R. F.
Davis
, G. V.
Saparin
, and S. K.
Obyden
, Appl. Phys. Lett.
72
, 2990
(1998
).12.
F.
Bertram
, T.
Riemann
, J.
Christen
, A.
Kaschner
, A.
Hoffman
, C.
Thomsen
, K.
Hiramatsu
, T.
Shibata
, and N.
Sawaki
, Appl. Phys. Lett.
74
, 359
(1999
).13.
D.
Behr
, J.
Wagner
, J.
Schneider
, H.
Amano
, and I.
Akasaki
, Appl. Phys. Lett.
68
, 2404
(1996
).14.
D.
Kirillov
, H.
Lee
, and J. S.
Harris
, Jr., J. Appl. Phys.
80
, 4058
(1996
).15.
P.
Perlin
, J.
Camassel
, W.
Knap
, T.
Taliercio
, J. C.
Chervin
, T.
Suski
, I.
Grzegory
, and S.
Porowski
, Appl. Phys. Lett.
67
, 2524
(1995
).16.
F. A.
Ponce
, D. P.
Bour
, W.
Gotz
, and P. J.
Wright
, Appl. Phys. Lett.
68
, 57
(1996
).17.
M.
Ramsteiner
, J.
Menniger
, O.
Brandt
, H.
Yang
, and K. H.
Ploog
, Appl. Phys. Lett.
69
, 1276
(1996
).18.
J. M.
Zhang
, T.
Ruf
, M.
Cardona
, O.
Ambacher
, M.
Stutzmann
, J.-M.
Wagner
, and F.
Bechstedt
, Phys. Rev. B
56
, 14399
(1997
).19.
H.
Harima
, T.
Inoue
, S.
Nakashima
, K.
Furukawa
, and M.
Taneya
, Appl. Phys. Lett.
73
, 2000
(1998
).20.
H.
Siegle
, G.
Kacmarczyk
, L.
Filippidis
, A. P.
Litvinchuk
, A.
Hoffman
, and C.
Thomsen
, Phys. Rev. B
55
, 7000
(1997
).21.
L.
Filippidis
, H.
Siegle
, A.
Hoffman
, C.
Thomsen
, K.
Karch
, and F.
Bechstedt
, Phys. Status Solidi B
198
, 621
(1996
).22.
23.
Light Scattering In Solids II; Vol. 50, edited by M. Cardona and G. Guntherodt (Springer, New York, 1982).
24.
25.
M. Pophristic and F. H. Long (unpublished results).
26.
F. Pollack, in Analytical Raman Spectroscopy, edited by J. C. Grasselli and B. J. Bulkin (Wiley, New York, 1991), p. 137.
27.
M. V.
Klein
, B. N.
Ganguly
, and P. J.
Colwell
, Phys. Rev. B
6
, 2380
(1972
).28.
T.
Kozawa
, T.
Kachi
, H.
Kano
, Y.
Taga
, M.
Hashimoto
, N.
Koide
, and K.
Manabe
, J. Appl. Phys.
75
, 1098
(1994
).
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