We report the design, growth, fabrication, and characterization of GaAs-based high-speed p–i–n photodiodes operating at 1.55 μm. A low-temperature-grown GaAs (LT-GaAs) layer was used as the absorption layer and the photoresponse was selectively enhanced at 1.55 μm using a resonant-cavity-detector structure. The bottom mirror of the resonant cavity was formed by a highly reflecting 15-pair GaAs/AlAs Bragg mirror. Molecular-beam epitaxy was used for wafer growth, where the active LT-GaAs layer was grown at a substrate temperature of 200 °C. The fabricated devices exhibited a resonance around 1548 nm. When compared to the efficiency of a conventional single-pass detector, an enhancement factor of 7.5 was achieved. Temporal pulse-response measurements were carried out at 1.55 μm. Fast pulse responses with 30 ps pulse-width and a corresponding 3 dB bandwidth of 11.2 GHz was measured.

1.
J. E. Bowers and Y. G. Wey, in Handbook of Optics, edited by M. Bass (McGraw–Hill, New York, 1995), Chap. 17.
2.
K.
Kato
,
IEEE Trans. Microwave Theory Tech.
47
,
1265
(
1998
).
3.
I.
Kimukin
,
N.
Biyikli
,
B.
Butun
,
O.
Aytur
,
M. S.
Unlu
, and
E.
Ozbay
,
IEEE Photonics Technol. Lett.
14
,
366
(
2002
).
4.
A.
Srinivasan
,
K.
Sadra
,
J. C.
Campbell
, and
B. G.
Streetman
,
J. Electron. Mater.
22
,
1457
(
1993
).
5.
A. C.
Warren
,
J. H.
Burroughes
,
J. M.
Woodall
,
D. T.
McInturff
,
R. T.
Hodgson
, and
M. R.
Melloch
,
IEEE Electron Device Lett.
12
,
597
(
1991
).
6.
S.
Gupta
,
J. F.
Whitaker
, and
G. A.
Mourou
,
IEEE J. Quantum Electron.
28
,
2464
(
1992
).
7.
J. F.
Whitaker
,
Mater. Sci. Eng., B
22
,
61
(
1993
).
8.
P.
Grenier
and
J. F.
Whitaker
,
Appl. Phys. Lett.
70
,
1998
(
1997
).
9.
Y.-C.
Chiu
,
S. Z.
Zhang
,
S. B.
Fleischer
,
J. E.
Bowers
, and
U. K.
Mishra
,
Electron. Lett.
34
,
1253
(
1998
).
10.
J.-W.
Shi
,
Y.-H.
Chen
,
K.-G.
Gan
,
Y.-C.
Chiu
,
C.-K.
Sun
, and
J. E.
Bowers
,
IEEE Photonics Technol. Lett.
14
,
363
(
2002
).
11.
H. S.
Loka
,
S. D.
Benjamin
, and
P. W. E.
Smith
,
Opt. Commun.
155
,
206
(
1998
).
12.
H.
Erlig
,
S.
Wang
,
T.
Azfar
,
A.
Udupa
,
H. R.
Fetterman
, and
D. C.
Streit
,
Electron. Lett.
35
,
173
(
1999
).
13.
M. S.
Unlu
and
S.
Strite
,
J. Appl. Phys.
78
,
607
(
1995
).
14.
M. S.
Unlu
,
M.
Gokkavas
,
B. M.
Onat
,
E.
Ata
,
E.
Ozbay
,
R. P.
Mirin
,
K. J.
Knopp
,
K. A.
Bertness
, and
D. H.
Christensen
,
Appl. Phys. Lett.
72
,
2727
(
1998
).
15.
E.
Ozbay
,
I.
Kimukin
,
N.
Biyikli
,
O.
Aytur
,
M.
Gokkavas
,
G.
Ulu
,
M. S.
Unlu
,
R. P.
Mirin
,
K. A.
Bertness
, and
D. H.
Christensen
,
Appl. Phys. Lett.
74
,
1072
(
1999
).
16.
N.
Biyikli
,
I.
Kimukin
,
O.
Aytur
,
M.
Gokkavas
,
M. S.
Unlu
, and
E.
Ozbay
,
IEEE Photonics Technol. Lett.
13
,
705
(
2001
).
17.
C.
Lennox
,
H.
Nie
,
P.
Yuan
,
G.
Kinsey
,
A. L.
Holmes
,
B. G.
Streetman
, and
J. C.
Campbell
,
IEEE Photonics Technol. Lett.
11
,
1162
(
1999
).
18.
I.
Kimukin
,
N.
Biyikli
,
B.
Butun
,
O.
Aytur
,
M. S.
Unlu
, and
E.
Ozbay
,
IEEE Photonics Technol. Lett.
14
,
366
(
2002
).
19.
G. L.
Witt
,
Mater. Sci. Eng., B
22
,
9
(
1993
).
20.
K.-G.
Gan
,
J.-W.
Shi
,
Y.-H.
Chen
,
C.-K.
Sun
,
Y.-C.
Chiu
, and
J. E.
Bowers
,
Appl. Phys. Lett.
80
,
4054
(
2002
).
21.
H. S.
Loka
,
S. D.
Benjamin
, and
P. W. E.
Smith
,
IEEE J. Quantum Electron.
34
,
1426
(
1998
).
This content is only available via PDF.
You do not currently have access to this content.