Amplified spontaneous emission on sodium D-lines using nonresonant optical pumping

被引:2
|
作者
Petukhov T.D. [1 ,2 ]
Evtushenko G.S. [1 ,3 ]
Tel’Minov E.N. [4 ]
机构
[1] National Research Tomsk Polytechnic University, Tomsk
[2] Topaz Ltd., Tomsk
[3] V.E. Zuev Institute of Atmospheric Optics, Siberian Branch, Russian Academy of Sciences, Tomsk
[4] National Research Tomsk State University, Tomsk
来源
Atmospheric and Oceanic Optics | 2018年 / 31卷 / 1期
基金
俄罗斯科学基金会;
关键词
Active optical system; Alkaline metals; Amplified spontaneous emission; Optical pumping; Sodium;
D O I
10.1134/S102485601801013X
中图分类号
学科分类号
摘要
We describe experiments on the excitation of amplified spontaneous emission on the D-lines of sodium (D2 = 588.9 nm; D1 = 589.6 nm) with longitudinal optical pumping with a large detuning from the D2 line toward shorter wavelengths. The radiation spectra are measured, showing gain on both lines, at a Na concentration of (1-5) × 1014 cm-3, buffer gas (helium) pressure of 600 Torr at the working temperature, and pumping power density of more than 1.5 MW/cm2. The time characteristics show that the output radiation varies versus the concentration of sodium atoms in the active medium. The dependences of radiation absorption at the D-lines of sodium on the concentration of Na atoms and buffer gas pressure are given. © Pleiades Publishing, Ltd and T.D. Petukhov, G.S. Evtushenko, E.N. Tel’minov, 2017.
引用
收藏
页码:101 / 105
页数:4
相关论文
共 50 条
  • [21] A Stokes-based spectro-polarimetric analysis of the amplified spontaneous emission in a semiconductor optical amplifier
    Tariaki, Mohamad
    Boulvert, Frederic
    Bentivegna, Florian F. L.
    Guegan, Mikael
    Topomondzo, Joseph
    Sharaiha, Ammar
    Pellen, Fabrice
    Le Jeune, Bernard
    JOURNAL OF THE EUROPEAN OPTICAL SOCIETY-RAPID PUBLICATIONS, 2007, 2
  • [22] Optical Properties and Amplified Spontaneous Emission of Novel MDMO-PPV/C500 Hybrid
    Abumosa, Rasha A.
    Al-Asbahi, Bandar Ali
    AlSalhi, Mohamad Saleh
    POLYMERS, 2017, 9 (02)
  • [23] High-resolution and stable optical power measurement using a temperature controlled amplified- spontaneous-emission feedback circuit
    Biswas, Biswajit
    Abrar, Golam Barkatul
    Tanaka, Kunihiro
    Harada, Ryuga
    Kitamura, Kokoro
    Masuda, Hiroji
    IEICE COMMUNICATIONS EXPRESS, 2023, 12 (05): : 230 - 235
  • [24] Synthesis, optical properties, and amplified spontaneous emission of hybrid Ag-SiO2-CdTe nanocomposite
    Saad, A. M.
    Mohamed, M. B.
    Azzouz, I. M.
    CANADIAN JOURNAL OF PHYSICS, 2017, 95 (10) : 933 - 940
  • [25] On the design of all-optical gates based on quantum-dot semiconductor optical amplifier with effect of amplified spontaneous emission
    A. Kotb
    K. E. Zoiros
    Optical and Quantum Electronics, 2014, 46 : 977 - 989
  • [26] On the design of all-optical gates based on quantum-dot semiconductor optical amplifier with effect of amplified spontaneous emission
    Kotb, A.
    Zoiros, K. E.
    OPTICAL AND QUANTUM ELECTRONICS, 2014, 46 (08) : 977 - 989
  • [27] Red, Yellow, Green, and Blue Amplified Spontaneous Emission and Lasing Using Colloidal CdSe Nanoplatelets
    She, Chunxing
    Fedin, Igor
    Dolzhnikov, Dmitriy S.
    Dahlberg, Peter D.
    Engel, Gregory S.
    Schaller, Richard D.
    Talapin, Dmitri V.
    ACS NANO, 2015, 9 (10) : 9475 - 9485
  • [28] Elastic Self-Doping Organic Single Crystals Exhibiting Flexible Optical Waveguide and Amplified Spontaneous Emission
    Huang, Rui
    Wang, Chenguang
    Wang, Yue
    Zhang, Hongyu
    ADVANCED MATERIALS, 2018, 30 (21)
  • [29] Information Capacity of Polarization-Modulated and Directly Detected Optical Systems Dominated by Amplified Spontaneous Emission Noise
    Khodakarami, Hamid
    Che, Di
    Shieh, William
    JOURNAL OF LIGHTWAVE TECHNOLOGY, 2017, 35 (14) : 2797 - 2802
  • [30] Link fault detection in passive optical networks based on correlation method combined with an amplified spontaneous emission source
    Yang, Lingzhen, 1600, Science Press (41):
12345