学术探索
学术期刊
新闻热点
数据分析
智能评审

High temperature (Ga)InAsP high band gap GaInAsP barriers 1.3 mu m SL-MQW lasers grown by gas source MBE

被引:7
作者
PagnodRossiaux, P
Gaborit, F
Tscherptner, N
Roux, L
Starck, C
Fernier, B
机构
[1] Alcatel-Alsthom Recherche, F-91460 Marcoussis, Route de Nozay
来源
JOURNAL OF CRYSTAL GROWTH | 1997年 / 175卷
关键词
1.3 mu m lasers; strain-compensated multi-quantum wells; characteristic temperature;
D O I
10.1016/S0022-0248(96)00953-0
中图分类号
O7 [晶体学];
学科分类号
0702 ; 070205 ; 0703 ; 080501 ;
摘要
We report on an experimental investigation of the temperature sensitivity of (Ga)InAsP compressively strained multi-quantum well (MQN) 1.3 mu m broad area lasers with respect to the amount of strain and barrier band gap. The composition of wells are adjusted to let the strains range from 0.6 % to 1.4%. whereas barrier band gap scales from 1.13 to 1.3 eV. Threshold current densities per well for infinite length as low as 60 to 135 A cm(-2) at 20 degrees C asses for the high quality of the structures grown by gas source MBE. Characteristic temperatures of 80 to 110 K, depending on the barrier band gap, are measured between 20 degrees C and 80 degrees C for 1200 mu m long devices.
引用
收藏
页码:948 / 954
页数:7
相关论文
共 15 条
[1]   EFFECT OF BARRIER RECOMBINATION ON THE HIGH-TEMPERATURE PERFORMANCE OF QUATERNARY MULTIQUANTUM-WELL LASERS [J].
BERNUSSI, AA ;
TEMKIN, H ;
COBLENZ, DL ;
LOGAN, RA .
APPLIED PHYSICS LETTERS, 1995, 66 (01) :67-69
[2]   GAS-SOURCE MOLECULAR-BEAM EPITAXY OF ALTERNATED TENSILE COMPRESSIVE STRAINED GAINASP MULTIPLE-QUANTUM WELLS EMITTING AT 1.5 MU-M [J].
EMERY, JY ;
STARCK, C ;
GOLDSTEIN, L ;
PONCHET, A ;
ROCHER, A .
JOURNAL OF CRYSTAL GROWTH, 1993, 127 (1-4) :241-245
[3]   1.3 mu m SLMQW DFB lasers with high quantum efficiency for -40-85 degrees C operation [J].
Fernier, B ;
Gerard, F ;
Pagnod, P ;
Michaud, G ;
Ripoche, G ;
Vendrome, G ;
Capella, RM .
ELECTRONICS LETTERS, 1995, 31 (25) :2174-2175
[4]   VERY LOW THRESHOLD CURRENT 1.3-MU-M INASYP1-Y/INP BH STRAINED-LAYER QUANTUM-WELL LASER-DIODES GROWN BY MOCVD [J].
KASUKAWA, A ;
IWAI, N ;
NAMEGAYA, T ;
KIKUTA, T .
ELECTRONICS LETTERS, 1992, 28 (25) :2351-2353
[5]   VERY-LOW THRESHOLD CURRENT-DENSITY 1.3-MU-M INASP/INP/INGAP/INP/GAINASP STRAIN-COMPENSATED MULTIPLE-QUANTUM-WELL LASERS [J].
KASUKAWA, A ;
YOKOUCHI, N ;
YAMANAKA, N ;
IWAI, N .
ELECTRONICS LETTERS, 1995, 31 (20) :1749-1750
[6]   Barrier composition dependence of differential gain and external differential quantum efficiency in 1.3-mu m strained-layer multiquantum-well lasers [J].
Kito, M ;
Otsuka, N ;
Ishino, M ;
Matsui, Y .
IEEE JOURNAL OF QUANTUM ELECTRONICS, 1996, 32 (01) :38-42
[7]  
MATHUR A, 1993, IEEE PHOTONICS LETT, V7, P753
[8]   HIGH-POWER AND HIGH-EFFICIENCY 1.3-MU-M INASP COMPRESSIVELY-STRAINED MQW LASERS AT HIGH-TEMPERATURES [J].
OOHASHI, H ;
SEKI, S ;
HIRONO, T ;
SUGIURA, H ;
AMANO, T ;
UEKI, M ;
NAKANO, J ;
YAMAMOTO, M ;
TOHMORI, Y ;
FUKUDA, M ;
YOKOYAMA, K .
ELECTRONICS LETTERS, 1995, 31 (07) :556-557
[9]   HIGH-TEMPERATURE CHARACTERISTIC T-O AND LOW-THRESHOLD CURRENT-DENSITY OF 1.3 MU-M INASP/INGAP/INP COMPENSATED STRAIN MULTIQUANTUM-WELL STRUCTURE LASERS [J].
OUGAZZADEN, A ;
MIRCEA, A ;
KAZMIERSKI, C .
ELECTRONICS LETTERS, 1995, 31 (10) :803-805
[10]  
PAGNODROSSIAUX P, 1993, P 7 EUR MBE WORKSH B
12