CLC number: O21; O43; TK01
On-line Access:
Received: 2006-12-19
Revision Accepted: 2007-03-28
Crosschecked: 0000-00-00
Cited: 0
Clicked: 5623
CHEN Ling-hong, ROZE Claude, GARO Annie, GIRASOLE Thierry, CEN Ke-fa, GREHAN Gérard. Semi-analytical Monte Carlo simulation of laser-induced fluorescence propagation in an optically participating spray[J]. Journal of Zhejiang University Science A, 2007, 8(7): 1170-1178.
@article{title="Semi-analytical Monte Carlo simulation of laser-induced fluorescence propagation in an optically participating spray",
author="CHEN Ling-hong, ROZE Claude, GARO Annie, GIRASOLE Thierry, CEN Ke-fa, GREHAN Gérard",
journal="Journal of Zhejiang University Science A",
volume="8",
number="7",
pages="1170-1178",
year="2007",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.2007.A1170"
}
%0 Journal Article
%T Semi-analytical Monte Carlo simulation of laser-induced fluorescence propagation in an optically participating spray
%A CHEN Ling-hong
%A ROZE Claude
%A GARO Annie
%A GIRASOLE Thierry
%A CEN Ke-fa
%A GREHAN Gé
%A rard
%J Journal of Zhejiang University SCIENCE A
%V 8
%N 7
%P 1170-1178
%@ 1673-565X
%D 2007
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.2007.A1170
TY - JOUR
T1 - Semi-analytical Monte Carlo simulation of laser-induced fluorescence propagation in an optically participating spray
A1 - CHEN Ling-hong
A1 - ROZE Claude
A1 - GARO Annie
A1 - GIRASOLE Thierry
A1 - CEN Ke-fa
A1 - GREHAN Gé
A1 - rard
J0 - Journal of Zhejiang University Science A
VL - 8
IS - 7
SP - 1170
EP - 1178
%@ 1673-565X
Y1 - 2007
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.2007.A1170
Abstract: A semi-analytical Monte Carlo (SMC) simulation was developed to simulate the propagation of laser-induced fluorescence (LIF) in an optically participating spray, which simultaneously exhibits spectrally dependent emission, anisotropic scattering, absorption, and re-emission. The SMC simulation is described and then applied to an experimental configuration of a cloud of polydisperse droplets composed of water and sulforhodamine B dye. In the SMC simulation, the collected LIF flux on the remote receptor element is calculated as the global contribution from the emissive source, single, twice, … and nth collision events in any sequence. The effects on the fluorescence photons propagation of spray parameters like the dye concentration, droplets concentration, and droplets size are examined. Three spectral bands representing different optical properties are chosen to analyze the interference of absorption, scattering and re-emission on the detected LIF flux. The obtained spectral LIF flux distribution on the receptor demonstrates a “red shift” phenomenon.
[1] Blanca, C.M., Saloma, C., 1998. Monte Carlo analysis of two-photon fluorescence imaging through a scattering medium. Appl. Opt., 37(34):8092-8102.
[2] Bohren, C.F., Huffman, D.R., 1983. Absorption and Scattering of Light by Small Particles. Wiley, New York, p.126-127.
[3] Brewster, M.Q., Tien, C.L., 1982. Radiation transfer in packed fluidized beds: dependent versus independent scattering. J. Heat Transfer, 104:573-579.
[4] Castanet, G., Lavieille, P., Lemoine, F., Lebouché, M., Atthasit, A., Biscos, Y., Lavergne, G., 2002. Energetic budget on an evaporating monodisperse droplet stream using combined optical methods evaluation of the convective heat transfer. International Journal of Heat and Mass Transfer, 45(25):5053-5067.
[5] Chen, L.H., 2005. Study by Numerical Simulation of Impact of Multiple Scattering on Participating Media. Ph.D Thesis, Rouen University, France.
[6] Chen, G., Mazumder, M.M., Chang, R.K., Swindal, J.C., Acker, W.P., 1996. Laser diagnostics for droplet characterization: application of morphology dependent resonances. Prog. Energy Combust. Sci., 22(2):163-188.
[7] Gomez, J.A., Thompson, W.H., 2004. Monte Carlo simulations of absorption and fluorescence spectra in ellipsoidal nanocavities. J. Phys. Chem. B, 108(52):20144-20154.
[8] Gouesbet, G., Gréhan, G., 2000. Generalized Lorenz-Mie theories from past to future. Atomic Sprays, 10(3-5):277-334.
[9] Lavieille, P., Lemoine, F., Lavergne, G., Lebouché, M., 2001. Evaporating and combustion droplet temperature measurements using two-color laser-induced fluorescence. Exp. Fluids, 31(1):45-55.
[10] Lavieille, P., Delconte, A., Blondel, D., Lebouché, M., Lemoine, F., 2004. Non-intrusive temperature measurements using three-color laser-induced fluorescence. Exp. Fluids, 36(5):706-716.
[11] Lemoine, F., Antoine, Y., Wolff, M., Lebouché, M., 1999. Simultaneous temperature and 2D velocity measurements in a turbulent heated jet using combined laser-induced fluorescence and LDA. Exp. Fluids, 26(4):315-323.
[12] Rozé, C., Girasole, T., Méès, L., Gréhan, G., Hespel, L., Delfour, A., 2003. Interaction between ultra short pulses and a dense scattering medium by Monte Carlo simulation: consideration of particle size effect. Optics Communications, 220(4-6):237-245.
[13] Wang, L.H., Jacques, S.L., Zheng, L.Q., 1995. MCML—Monte Carlo modeling of light transport in multi-layered tissues. Computer Methods and Programs in Biomedicine, 47(2):131-146.
Open peer comments: Debate/Discuss/Question/Opinion
<1>