Long-wavelength monolithic mode-locked diode lasers

被引:131
作者
Williams, KA [1 ]
Thompson, MG [1 ]
White, IH [1 ]
机构
[1] Univ Cambridge, Dept Engn, Cambridge CB2 1PZ, England
来源
NEW JOURNAL OF PHYSICS | 2004年 / 6卷
关键词
D O I
10.1088/1367-2630/6/1/179
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
A detailed study of the design issues relevant to long-wavelength monolithic mode-locked lasers is presented. Following a detailed review of the field, we have devised a validated travelling wave model to explore the limits of mode-locking in monolithic laser diodes, not only in terms of pulse duration and repetition rate, but also in terms of stability. It is shown that fast absorber recovery is crucial for short pulse width, that the ratio of gain to absorption saturation is key in accessing ultrashort pulses and that low alpha factors give only modest benefit. Finally, optimized contact layouts are shown to greatly enhance pulse stability and the overall operational success. The design rules show high levels of consistency with published experimental data.
引用
收藏
页码:1 / 30
页数:30
相关论文
共 127 条
[1]   Locking characteristics of a passively mode-locked monolithic DBR laser stabilized by optical injection [J].
Ahmed, Z ;
Liu, HF ;
Novak, D ;
Ogawa, Y ;
Pelusi, MD ;
Kim, DY .
IEEE PHOTONICS TECHNOLOGY LETTERS, 1996, 8 (01) :37-39
[2]   Repetition-frequency tuning of monolithic passively mode-locked semiconductor lasers with integrated extended cavities [J].
Arahira, S ;
Ogawa, Y .
IEEE JOURNAL OF QUANTUM ELECTRONICS, 1997, 33 (02) :255-264
[3]   Synchronous mode-locking in passively mode-locked semiconductor laser diodes using optical short pulses repeated at subharmonics of the cavity round-trip frequency [J].
Arahira, S ;
Ogawa, Y .
IEEE PHOTONICS TECHNOLOGY LETTERS, 1996, 8 (02) :191-193
[4]   PASSIVE AND HYBRID MODELOCKINGS IN A MULTIELECTRODE DBR LASER WITH 2 GAIN SECTIONS [J].
ARAHIRA, S ;
OGAWA, Y .
ELECTRONICS LETTERS, 1995, 31 (10) :808-809
[5]   Higher order chirp compensation of femtosecond mode-locked semiconductor lasers using optical fibers with different group-velocity dispersions [J].
Arahira, S ;
Kutsuzawa, S ;
Matsui, Y ;
Ogawa, Y .
IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS, 1996, 2 (03) :480-486
[6]   TRANSFORM-LIMITED OPTICAL SHORT-PULSE GENERATION AT HIGH-REPETITION-RATE OVER 40 GHZ FROM A MONOLITHIC PASSIVE MODE-LOCKED DBR LASER-DIODE [J].
ARAHIRA, S ;
MATSUI, Y ;
KUNII, T ;
OSHIBA, S ;
OGAWA, Y .
IEEE PHOTONICS TECHNOLOGY LETTERS, 1993, 5 (12) :1362-1365
[7]   20GHz subpicosecond monolithic modelocked laser diode [J].
Arahira, S ;
Katoh, Y ;
Ogawa, Y .
ELECTRONICS LETTERS, 2000, 36 (05) :454-456
[8]   480-GHz subharmonic synchronous mode locking in a short-cavity colliding-pulse mode-locked laser diode [J].
Arahira, S ;
Ogawa, Y .
IEEE PHOTONICS TECHNOLOGY LETTERS, 2002, 14 (04) :537-539
[9]   Extreme timing jitter reduction of a passively mode-locked laser diode by optical pulse injection [J].
Arahira, S ;
Kutsuzawa, S ;
Ogawa, Y .
IEEE JOURNAL OF QUANTUM ELECTRONICS, 1999, 35 (12) :1805-1811
[10]   Generation and stabilization of ultrafast optical pulse trains with monolithic mode-locked laser diodes [J].
Arahira, S ;
Katoh, Y ;
Ogawa, Y .
OPTICAL AND QUANTUM ELECTRONICS, 2001, 33 (7-10) :691-707
12345678910