Carefully optimized low-pressure metalorganic vapor phase epitaxy is used for homoepitaxial growth on distinctively pretreated GaN bulk single crystal substrates. Thereby, outstanding structural and optical qualities of the material have been achieved, exhibiting photoluminescence linewidths for bound excitons as narrow as 95 μeV. These extremely sharp lines reveal fine structures, not reported for GaN. Additionally, all three free excitons as well as their excited states are visible in low-temperature photoluminescence at 2 K. These transitions are clearly identified by reflectance measurements. X-ray diffraction analysis of these layers reveal about 20 arcsec linewidth for the (0004) reflex using Cu radiation.

1.
S.
Nakamura
,
M.
Senoh
,
N.
Iwasa
, and
S.
Nagahama
,
Jpn. J. Appl. Phys., Part 1
34
,
799
(
1995
).
2.
S.
Nakamura
,
M.
Senoh
,
S.
Nagahama
,
N.
Iwasa
,
T.
Yamada
,
T.
Matsushita
,
H.
Kiyoku
,
Y.
Sugimoto
,
T.
Kozaki
,
H.
Umemoto
,
M.
Sano
, and
K.
Chocho
,
Appl. Phys. Lett.
72
,
2014
(
1998
).
3.
M. Kamp, Opt. Quantum Electron. (to be published).
4.
N.
Weimann
,
L. F.
Eastman
,
D.
Doppalapudi
,
H. M.
Ng
, and
T. D.
Moustakas
,
Appl. Phys. Lett.
83
,
3656
(
1998
).
5.
Z. L.
Liau
,
R. L.
Aggarwal
,
P. A.
Maki
,
R. J.
Molnar
,
J. N.
Walpole
,
R. C.
Williamson
, and
I.
Melngallis
,
Appl. Phys. Lett.
69
,
1665
(
1996
).
6.
P.
Kozodoy
,
J. P.
Ibbetson
,
H.
Marchand
,
P. T.
Fini
,
S.
Keller
,
J. S.
Speck
,
S. P.
DenBaars
, and
U. K.
Mishra
,
Appl. Phys. Lett.
73
,
975
(
1998
).
7.
S.
Porowski
,
MRS Internet J. Nitride Semicond. Res.
4S1
,
G1
.
3
(
1999
).
8.
A.
Pelzmann
,
C.
Kirchner
,
M.
Mayer
,
V.
Schwegler
,
M.
Schauler
,
M.
Kamp
,
K. J.
Ebeling
,
I.
Grzegory
,
M.
Leszczynski
,
G.
Nowak
, and
S.
Porowski
,
J. Cryst. Growth
189–190
,
167
(
1998
).
9.
S.
Nakamura
,
M.
Senoh
,
S.
Nagahama
,
N.
Iwasa
,
T.
Yamada
,
T.
Matsushita
,
H.
Kiyoku
,
Y.
Sugimoto
,
T.
Kozaki
,
H.
Umemoto
,
M.
Sano
, and
K.
Chocho
,
Appl. Phys. Lett.
73
,
832
(
1998
).
10.
M.
Mayer
,
A.
Pelzmann
,
M.
Kamp
,
K. J.
Ebeling
,
H.
Teisseyre
,
G.
Nowak
,
M.
Leszczynski
,
I.
Grzegory
,
M.
Bockowski
, and
S.
Krukowski
,
Jpn. J. Appl. Phys., Part 2
36
,
L1634
(
1997
).
11.
J.
Baranowski
,
Mater. Res. Soc. Symp. Proc.
449
,
393
(
1997
).
12.
J. A.
Van Vechten
,
Phys. Rev. B
7
,
9
(
1973
).
13.
H.
Teisseyre
,
P.
Perlin
,
T.
Suski
,
I.
Grzegory
,
S.
Porowski
,
J.
Jun
,
A.
Pietraszko
, and
T. D.
Moustakas
,
J. Appl. Phys.
76
,
2429
(
1994
).
14.
J. L.
Weyher
,
S.
Müller
,
I.
Grzegory
, and
S.
Porowski
,
J. Cryst. Growth
182
,
17
(
1997
).
15.
M.
Schauler
,
F.
Eberhard
,
C.
Kirchner
,
V.
Schwegler
,
A.
Pelzmann
,
M.
Kamp
, and
K. J.
Ebeling
,
Appl. Phys. Lett.
74
,
1123
(
1999
).
16.
M.
Leszczynski
,
I.
Grzegory
,
H.
Teisseyre
,
T.
Suski
,
M.
Bockowski
,
J.
Jun
,
J. M.
Baranowski
,
S.
Porowski
, and
J.
Domagala
,
J. Cryst. Growth
169
,
235
(
1997
).
17.
B.
Beaumont
,
M.
Vaille
,
G.
Nataf
,
A.
Bouillé
,
J.-C.
Guillaume
,
P.
Vénnègues
,
S.
Haffouz
, and
P.
Gibart
,
MRS Internet J. Nitride Semicond. Res.
3
,
20
(
1998
).
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