Q-switching is demonstrated in a two-section InGaN multiple-quantum-well (MQW) laser diode consisting of an electroabsorption modulator and amplifier (gain) section. The modulator and gain sections are optically coupled and share the same InGaN MQW active region, but they are electrically separated by a narrow dry-etched trench. Applying a reverse bias voltage to the modulator section controls the absorption in the modulator portion of the device by compensating the piezoelectric field in the InGaN quantum wells. Changes in the absorption coefficient as large as 5000 cm−1 were realized with a moderate reverse bias of 7.2 V. By forward biasing, the amplifier section at a constant current of 225 mA and by controlling the reverse bias modulator voltage, the output power of the two-section laser diode could be switched between <0.5 mW (off state) and more than 3 mW (on state) with a laser emission wavelength near 401 nm.

1.
S.
Nakamura
,
M.
Senoh
,
S.
Nagahama
,
N.
Iwasa
,
T.
Yamada
,
T.
Matsushita
,
H.
Kiyoku
, and
Y.
Sugimoto
,
Jpn. J. Appl. Phys., Part 2
35
,
L74
(
1996
).
2.
S.
Nagahama
,
N.
Iwasa
,
M.
Senoh
,
T.
Matsushita
,
Y.
Sugimoto
,
H.
Kiyoku
,
T.
Kozaki
,
M.
Sano
,
H.
Matsumura
,
H.
Umemoto
,
K.
Chocho
, and
T.
Mukai
,
Jpn. J. Appl. Phys., Part 2
39
,
L647
(
2000
).
3.
T.
Tojyo
,
T.
Asano
,
M.
Takeya
,
T.
Hino
,
S.
Kijima
,
S.
Goto
,
S.
Uchida
, and
M.
Ikeda
,
Jpn. J. Appl. Phys., Part 1
40
,
3206
(
2001
).
4.
M.
Kuramato
,
C.
Sasaoka
,
Y.
Hisanaga
,
A.
Kimura
,
A. A.
Yamaguchi
,
H.
Sunakawa
,
N.
Kureda
,
M.
Nido
,
A.
Usui
, and
M.
Mizuta
,
Jpn. J. Appl. Phys., Part 2
38
,
L184
(
1999
).
5.
Y.
Nagai
,
Y.
Mihashi
,
S.
Kakimoto
,
K.
Ikeda
, and
W.
Susaki
,
Jpn. J. Appl. Phys., Part 1
34
,
6385
(
1995
).
6.
Y. K.
Chen
,
T.
Tanbun-Ek
,
R. A.
Logan
,
A.
Tate
,
A. M.
Sergent
,
K. W.
Wecht
, and
P. F.
Sciortine
,
IEEE Trans. Electron Devices
40
,
2118
(
1993
).
7.
M.
Kneissl
,
D. P.
Bour
,
L. T.
Romano
,
C. G.
Van de Walle
,
J. E.
Northrup
,
W. S.
Wong
,
D. W.
Treat
,
M.
Teepe
,
T.
Schmidt
, and
N. M.
Johnson
,
Appl. Phys. Lett.
77
,
1931
(
2000
).
8.
M.
Suzuki
,
Y.
Noda
,
H.
Tanaka
,
S.
Akiba
,
Y.
Kushiro
, and
H.
Isshiki
,
J. Lightwave Technol.
5
,
1277
(
1987
).
9.
T.
Tanbun-Ek
,
Y. K.
Chen
,
J. A.
Grenko
,
E. K.
Byrne
,
J. E.
Johnson
,
R. A.
Logan
,
A.
Tate
,
A. M.
Sergent
,
K. W.
Wecht
,
P. F.
Sciortine
, and
S. N. G.
Chu
,
J. Cryst. Growth
145
,
902
(
1994
).
10.
R. M.
Lammert
,
G. M.
Smith
,
S.
Hughes
,
M. L.
Osowski
,
A. M.
Jones
, and
J. J.
Coleman
,
IEEE Photonics Technol. Lett.
8
,
797
(
1996
).
11.
F.
Bernardini
,
V.
Fiorentini
, and
D.
Vanderbilt
,
Phys. Rev. B
56
,
R10024
(
1997
).
12.
T.
Takeuchi
,
C.
Wetzel
,
S.
Yamaguchi
,
H.
Sakai
,
H.
Amano
, and
I.
Akasaki
,
Appl. Phys. Lett.
73
,
1691
(
1998
).
13.
S. F.
Chichibu
,
A. C.
Abare
,
M. S.
Minsky
,
S.
Keller
,
S. B.
Fleischer
,
J. E.
Bowers
,
E.
Hu
,
U. K.
Mishra
,
L. A.
Coldren
, and
S. P.
DenBaars
,
Appl. Phys. Lett.
73
,
2006
(
1998
).
14.
H.
Kollmer
,
J. S.
Im
,
S.
Heppel
,
J.
Off
,
F.
Scholz
, and
A.
Hangleiter
,
Appl. Phys. Lett.
74
,
82
(
1999
).
15.
P.
Kiesel
,
F.
Renner
,
M.
Kneissl
,
N. M.
Johnson
, and
G. H.
Dohler
,
Phys. Status Solidi A
188
,
131
(
2001
).
16.
D. A. B.
Miller
,
D. S.
Chemla
,
T. C.
Damen
,
A. C.
Gossard
,
W.
Wiegmann
,
T. H.
Wood
, and
C. A.
Burrus
,
Phys. Rev. Lett.
53
,
2173
(
1984
).
17.
D. A. B.
Miller
,
D. S.
Chemla
, and
S.
Schmitt-Rink
,
Phys. Rev. B
33
,
6976
(
1986
).
18.
The external electric field Fext was calculated using the relationship Fext=Umod+Vbi/w, where Umod is the applied reverse bias, Vbi is the built-in p-n-junction potential, and w is the width of the space-charge layer. The width of the space-charge layer w was calculated from the device design parameters and directly verified from capacitance–voltage measurements.
19.
G.
Schmiedel
,
P.
Kiesel
,
G. H.
Dohler
,
E.
Greger
,
K. H.
Gulden
,
H. P.
Schweizer
, and
M.
Moser
,
J. Appl. Phys.
81
,
1008
(
1997
).
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