Investigation of nonlinear absorption and aggregation in aqueous solutions of rhodamine B using thermal lens technique

被引:0
|
作者
C. V. Bindhu
S. S. Harilal
V. P. N. Nampoori
C. P. G. Vallabhan
机构
[1] Cochin University of Science and Technology,Laser Division, International School of Photonics
[2] Sree Narayana College,Department of Physics
来源
Pramana | 1999年 / 52卷
关键词
Thermal lensing; nonlinear absorption; rhodamine B; 42.65; 42.62; 31.70; 42.55;
D O I
暂无
中图分类号
学科分类号
摘要
Thermal lensing effect was studied in aqueous solutions of rhodamine B using 532 nm, 9 ns pulses from a Nd:YAG laser. A low intensity He-Ne laser beam was used for probing the thermal lens. Results obtained show that it is appropriate to use this technique for studying nonlinear absorption processes like two photon absorption or excited state absorption and for analyzing dimerization equilibria.
引用
收藏
页码:435 / 442
页数:7
相关论文
共 50 条
  • [31] Adsorptive removal of Rhodamine B from aqueous solutions by carbonaceous microspheres
    Yang, Zhi Ai
    Feng, Li Jin
    Wang, Xia
    Ma, Rong
    Song, Xu Chun
    ADVANCED ENGINEERING MATERIALS II, PTS 1-3, 2012, 535-537 : 337 - 340
  • [32] REMOVAL OF RHODAMINE FROM AQUEOUS SOLUTIONS USING NATURAL ZEOLITE
    Senila, Lacrimioara
    Neag, Emilia
    Scurtu, Daniela Alexandra
    Cadar, Oana
    Becze, Anca
    Tomoiag, Calin Horea
    Senila, Marin
    STUDIA UNIVERSITATIS BABES-BOLYAI CHEMIA, 2021, 66 (02): : 171 - 180
  • [33] Quantification of nanodiamonds in aqueous solutions by spectrophotometry and thermal lens spectrometry
    Volkov, D. S.
    Semenyuk, P. I.
    Korobov, M. V.
    Proskurnin, M. A.
    JOURNAL OF ANALYTICAL CHEMISTRY, 2012, 67 (10) : 842 - 850
  • [34] Quantification of nanodiamonds in aqueous solutions by spectrophotometry and thermal lens spectrometry
    D. S. Volkov
    P. I. Semenyuk
    M. V. Korobov
    M. A. Proskurnin
    Journal of Analytical Chemistry, 2012, 67 : 842 - 850
  • [35] AN INVESTIGATION BY LIGHT SCATTERING OF THE STATE OF AGGREGATION OF AMYLOSE IN AQUEOUS SOLUTIONS
    PASCHALL, EF
    FOSTER, JF
    JOURNAL OF POLYMER SCIENCE, 1952, 9 (01): : 73 - 84
  • [36] Intensification of degradation of aqueous solutions of rhodamine B using sonochemical reactors at operating capacity of 7 L
    Mishra, Kashyap P.
    Gogate, Parag R.
    JOURNAL OF ENVIRONMENTAL MANAGEMENT, 2011, 92 (08) : 1972 - 1977
  • [37] Thermal diffusivity of rhodamine 6G incorporated in silver nanofluid measured using mode-matched thermal lens technique
    Joseph, Santhi Ani
    Hari, Misha
    Mathew, S.
    Sharma, Gaurav
    Soumya
    Hadiya, V. M.
    Radhakrishnan, P.
    Nampoori, V. P. N.
    OPTICS COMMUNICATIONS, 2010, 283 (02) : 313 - 317
  • [38] Aggregation of methylene blue in frozen aqueous solutions studied by absorption spectroscopy
    Heger, D
    Jirkovsky, J
    Klán, P
    JOURNAL OF PHYSICAL CHEMISTRY A, 2005, 109 (30): : 6702 - 6709
  • [39] 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
  • [40] AGGREGATION CHARACTERISTICS OF LASER-DYE RHODAMINE 6G IN AQUEOUS SURFACTANT SOLUTIONS
    KELKAR, VK
    VALAULIKAR, BS
    KUNJAPPU, JT
    MANOHAR, C
    PHOTOCHEMISTRY AND PHOTOBIOLOGY, 1990, 52 (04) : 717 - 721
12345