Saturation Power of a Semiconductor Optical Amplifier Based on Self-Organized Quantum Dots

被引:0
|
作者
Zhukov, A. E. [1 ]
Kryzhanovskaya, N., V [1 ]
Moiseev, E., I [1 ]
Nadtochiy, A. M. [1 ]
Zubov, F., I [2 ]
Fetisova, M., V [2 ]
Maximov, M., V [1 ,2 ]
Gordeev, N. Yu [3 ]
机构
[1] Natl Res Univ, Higher Sch Econ, St Petersburg 190008, Russia
[2] Alferov St Petersburg Acad Univ, St Petersburg 194021, Russia
[3] Ioffe Inst, St Petersburg 194021, Russia
来源
SEMICONDUCTORS | 2021年 / 55卷 / SUPPL 1期
基金
俄罗斯科学基金会;
关键词
semiconductor optical amplifier; quantum dots; rate equations; MICRODISK LASERS; LOW-THRESHOLD; WAVELENGTH; GAIN; DYNAMICS;
D O I
10.1134/S1063782621090256
中图分类号
O469 [凝聚态物理学];
学科分类号
070205 ;
摘要
Gain saturation in a semiconductor optical amplifier with an array of quantum dots is studied analytically and by numerical simulation on the basis of an analysis of rate equations. It is shown that, at a moderate injection level, the saturation power increases in proportion to the current density, and then reaches its maximum value, limited by the rate of carrier delivery to the ground state and by the number of quantum dots interacting with photons. Expressions are proposed that allow explicit description of the dependence of the saturation power on current and its relationship with the internal parameters of the active region.
引用
收藏
页码:S67 / S71
页数:5
相关论文
共 50 条
  • [41] Self-organized CdSSe quantum dots thin films
    Chaure, S
    Chaure, NB
    Pandey, RK
    JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2006, 6 (03) : 731 - 737
  • [42] Spin storage and readout in self-organized quantum dots
    Warming, T.
    Wieczorek, W.
    Geller, M.
    Bimberg, D.
    Cirlin, G. E.
    Zhukov, A. E.
    Ustinov, V. M.
    PHYSICS OF SEMICONDUCTORS, PTS A AND B, 2007, 893 : 957 - +
  • [43] Cyclotron resonance of InAs self-organized quantum dots
    Nagamune, Y
    Noda, T
    Kim, H
    Sakaki, H
    PROCEEDINGS OF THE 25TH INTERNATIONAL CONFERENCE ON THE PHYSICS OF SEMICONDUCTORS, PTS I AND II, 2001, 87 : 1153 - 1154
  • [44] <<Self-organized>> InAs/GaAs quantum dots.
    Marzin, JY
    Gerard, JM
    Cabrol, O
    Jusserand, B
    Sermage, B
    NUOVO CIMENTO DELLA SOCIETA ITALIANA DI FISICA D-CONDENSED MATTER ATOMIC MOLECULAR AND CHEMICAL PHYSICS FLUIDS PLASMAS BIOPHYSICS, 1995, 17 (11-12): : 1285 - 1293
  • [45] Strain engineering of self-organized InAs quantum dots
    Guffarth, F
    Heitz, R
    Schliwa, A
    Stier, O
    Ledentsov, NN
    Kovsh, AR
    Ustinov, VM
    Bimberg, D
    PHYSICAL REVIEW B, 2001, 64 (08):
  • [46] Engineering exciton dynamics in self-organized quantum dots
    Heitz, R
    PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES, 2003, 16 (01): : 68 - 75
  • [47] Formation and characterization of self-organized CdSe quantum dots
    Kenzo Maehashi
    Nobuhiro Yasui
    Yasuhiro Murase
    Takeshi Ota
    Tsuguki Noma
    Hisao Nakashima
    Journal of Electronic Materials, 2000, 29 : 542 - 549
  • [48] Evidence of multimodal patterns of self-organized quantum dots
    Chen, F
    Feng, SL
    Zhao, Q
    Wang, ZR
    SUPERLATTICES AND MICROSTRUCTURES, 1998, 24 (05) : 353 - 357
  • [49] Charge and spin storage in self-organized quantum dots
    Wieczorek, W
    Warming, T
    Geller, M
    Bimberg, D
    Cirlin, GE
    Zhukov, AE
    Ustinov, VM
    APPLIED PHYSICS LETTERS, 2006, 88 (18)
  • [50] Uniformity enhancement of the self-organized InAs quantum dots
    Zhu, HJ
    Wang, ZM
    Wang, H
    Cui, LQ
    Feng, SL
    JOURNAL OF CRYSTAL GROWTH, 1999, 197 (1-2) : 372 - 375
12345