Cavity-Enhanced Fluorescence in Colliding Droplets of Rhodamine 6G Aqueous Solutions

被引:4
|
作者
Kamoshita, Aya [1 ]
Kohno, Jun-ya [1 ]
机构
[1] Gakushuin Univ, Fac Sci, Dept Chem, Tokyo 1718588, Japan
来源
JOURNAL OF PHYSICAL CHEMISTRY A | 2023年 / 127卷 / 36期
关键词
STIMULATED RAMAN-SCATTERING; LASING DROPLETS; LIQUID DROPLETS; LASER-EMISSION; DYE-LASER; TIME; SPECTROSCOPY; MOLECULES; ETHANOL;
D O I
10.1021/acs.jpca.3c03667
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
A liquid droplet can act as a microscale high-Q opticalcavityvia a whispering gallery mode, where light resonates with enhancedintensity. A collision of two droplets temporarily exhibits a uniquemorphology, which provides a more effective optical cavity than asingle droplet. We investigated the mechanisms of cavity-enhancedfluorescence in colliding droplets of aqueous rhodamine 6G. Laser-excitedspectra and fluorescence generation times were acquired. The fluorescencespectra had two peaks: one attributed to amplified spontaneous emission(ASE) and the other to lasing. The lasing generation time had a longerdelay relative to that of ASE, which indicated that it required alonger propagation distance for the positive feedback. Overall, thisprovides a basis for the development of a highly efficient dye laserusing colliding droplets.
引用
收藏
页码:7605 / 7611
页数:7
相关论文
共 50 条
  • [31] EFFECT OF BETA-CYCLODEXTRIN ON THE FLUORESCENCE, ABSORPTION AND LASING OF RHODAMINE 6G, RHODAMINE-B AND FLUORESCEIN DISODIUM SALT IN AQUEOUS-SOLUTIONS
    POLITZER, IR
    CRAGO, KT
    HAMPTON, T
    JOSEPH, J
    BOYER, JH
    SHAH, M
    CHEMICAL PHYSICS LETTERS, 1989, 159 (2-3) : 258 - 262
  • [32] Fluorescence Enhancement and Laser Behavior of Rhodamine 6G in Micell
    Zhong, Xianqiong
    Yang, Jingguo
    Ha, Yuanqing
    Meng, Jianping
    Li, Yuanqian
    Guang Pu Xue Yu Guang Pu Fen Xi/Spectroscopy and Spectral Analysis, 2001, 21 (04): : 452 - 453
  • [33] Fluorescence of Rhodamine 6G on Hydrotalcite -Possibility of Alcohol Sensing
    Takahashi, Keiichi
    Tajima, Masahiro
    Matsunaga, Katsuji
    Miura, Hideaki
    CHEMISTRY LETTERS, 2009, 38 (02) : 158 - 159
  • [34] Fluorescence spectroscopy of Rhodamine 6G: Concentration and solvent effects
    Zehentbauer, Florian M.
    Moretto, Claudia
    Stephen, Ryan
    Thevar, Thangavel
    Gilchrist, John R.
    Pokrajac, Dubravka
    Richard, Katherine L.
    Kiefer, Johannes
    SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, 2014, 121 : 147 - 151
  • [35] REMARKS ON FLUORESCENCE CONCENTRATION QUENCHING OF RHODAMINE 6G IN METHANOL
    BOJARSKI, C
    BUJKO, R
    BOJARSKI, P
    ACTA PHYSICA POLONICA A, 1991, 79 (04) : 471 - 478
  • [36] Molecular Dynamics of Rhodamine 6G Solutions as Revealed by the Computer Processing of Fluorescence Microscopy Images
    E. A. Savchenko
    A. A. Andryakov
    E. N. Velichko
    Optical Memory and Neural Networks, 2020, 29 : 157 - 164
  • [37] FLUORESCENCE PROPERTIES OF SUBMONOLAYERS OF RHODAMINE 6G IN FRONT OF A MIRROR
    CNOSSEN, G
    DRABE, KE
    WIERSMA, DA
    JOURNAL OF CHEMICAL PHYSICS, 1993, 98 (07): : 5276 - 5280
  • [38] Fluorescence enhancement and laser behavior of Rhodamine 6G in micell
    Zhong, XQ
    Yang, JG
    Ha, YQ
    Meng, JP
    SPECTROSCOPY AND SPECTRAL ANALYSIS, 2001, 21 (04) : 450 - 453
  • [39] How Graphene Oxide Quenches Fluorescence of Rhodamine 6G
    Fan, Kai-li
    Guo, Zhen-kun
    Geng, Zhi-gang
    Ge, Jing
    Jiang, Shen-long
    Hu, Jia-hua
    Zhang, Qun
    CHINESE JOURNAL OF CHEMICAL PHYSICS, 2013, 26 (03) : 252 - 258
  • [40] Molecular Dynamics of Rhodamine 6G Solutions as Revealed by the Computer Processing of Fluorescence Microscopy Images
    Savchenko, E. A.
    Andryakov, A. A.
    Velichko, E. N.
    OPTICAL MEMORY AND NEURAL NETWORKS, 2020, 29 (03) : 157 - 164
12345