Spontaneous Raman scattering and coherent anti-Stokes Raman scattering (CARS) were used to measure spatially resolved temperatures in a laminar, premixed propane/air flame at atmospheric pressure. Three models for the Raman linewidths were tested in the evaluation of the CARS spectra. Comparison with spontaneous Raman scattering shows that two of these models perform approximately equally; the third model leads to erroneous results.
Laser Raman Gas Diagnostics, LappM. and PenneyC. M., Eds. (Plenum Press, New York, 1974).
2.
StrickerW., Comb. Flame27, 133 (1976).
3.
StephensonD. A., in Proc. 17th Int. Symp. Combustion, (The Combustion Institute, Pittsburgh, 1978), p. 993.
4.
AeschlimannD. P.CummingsJ. C., and HillR. A., J. Quant. Spectr. Rad. Transfer21, 293 (1979).
5.
SochetL.-R.LucquinM.BridouxM.Crunelle-CrasM.GraseF., and DelhayeM., Comb. Flame36, 109 (1979).
6.
DrakeM. C.LappM., and PenneyC. M., in Temperature, its Measurement and Control in Science and Industry, SchooleyJ. F., Ed. (American Institute of Physics, New York, 1982), Vol. V, Part 1, p. 631.
7.
DrakeM. C.AsawaroengchaiC.DrapchoD. L.VeirsK. D., and RosenblattG. M., in Temperature, its Measurement and Control in Science and Industry, SchooleyJ. F., Ed. (American Institute of Physics, New York, 1982), Vol. V, Part 1, p. 621.
8.
NiblerJ. W.ShaubW. M.McDonaldJ. R., and HarveyA. B., “Coherent Anti-Stokes Raman Spectroscopy,” in Vibrational Spectra and Structure, DurigJ. R., Ed. (Elsevier, Amsterdam, 1977), Vol. 6, p. 173.
9.
DruetS. A. J. and TaranJ.-P. E., “Coherent Anti-Stokes Raman Spectroscopy,” in Chemical and Biochemical Applications of Lasers, MooreC. B., Ed. (Academic Press, New York, 1979), Vol. IV, p. 187.
10.
NiblerJ. W. and KnightenG. V.: “Coherent Anti-Stokes Raman Scattering,” in Raman Spectroscopy of Gases and Liquids, WeberA., Ed. (Springer, Berlin, 1979), p. 253 [for the additional factor of 2 in the denominator of Eq. 5 cf.: LundeenT. L.HouS.-Y., and NiblerJ. W., J. Chem. Phys.79, 6301 (1983)].
11.
DruetS. A. J. and TaranJ.-P. E., Prog. Quant. Electr.7, 1 (1981).
12.
RegnierP. R. and TaranJ.-P. E., Appl. Phys. Lett.23, 240 (1973).
13.
EckbrethA. C., in Proc. 17th Int. Symp. Combustion (The Combustion Institute, Pittsburgh, 1978), p. 975.
14.
RahnL. A.ZychL. J., and MatternP. L., Opt. Commun.30, 249 (1979).
15.
EckbrethA. C. and HallR. J., Comb. Sci. Technol.25, 175 (1981).
16.
Müller-DethlefsK.PealatM., and TaranJ.-P. E., Ber. Bunsenges. Phys. Chem.85, 803 (1981).
17.
AldenM.EdnerH., and SvanbergS., Phys. Scr.27, 29 (1983).
18.
HallR. J. and BoedekerL. R., Appl. Opt.23, 1340 (1984).
19.
StenhouseI. A.WilliamsD. R.ColeJ. B., and SwordsM. D., Appl. Opt.18, 3819 (1979).
20.
RahnL. A.JohnstonS. C.FarrowR. L., and MatternP. L., in Temperature, its Measurement and Control in Science and Industry, SchooleyJ. F., Ed. (American Institute of Physics, New York, 1982), Vol. V, Part 1, p. 609.
21.
AlessandrettiG. C. and ViolinoP., J. Phys. D: Appl. Phys.16, 1583 (1983).
22.
KataokaH.MaedaS.HiroseC., and KajiyamaK., Appl. Spectrosc.37, 508 (1983).
23.
KlickD.MarkoK. A., and RimaiL., Appl. Opt.23, 1347 (1984).
24.
GreenhalghD. A.PorterF. M., and EnglandW. A., Comb. Flame49, 171 (1983).
25.
SwitzerG. L.TrumpD. D.GossL. P.RoquemoreW. M.BradleyR. P.StutrudJ. S., and ReevesC. M., in Combustion Diagnostics by Nonintrusive Methods, McCayT. D. and RouxJ. A., Eds. (American Institute of Astronautics and Aeronautics, New York, 1984), p. 82.
26.
BedueR.GasteboisP.BaillyR.PealatM.TaranJ.-P. E., Comb. Flame57, 141 (1984).
27.
EckbrethA. C.DobbsG. M.StufflebeamJ. H., and TellexP. A., Appl. Opt.23, 1328 (1984).
28.
FarrowR. L.MatternP. L., and RahnL. A., Appl. Opt.21, 3119 (1982).
29.
AntcliffR. R. and JarrettO.Jr., in Combustion Diagnostics by Nonintrusive Methods, McCayT. D. and RouxJ. A., Eds. (American Institute of Astronautics and Aeronautics, New York, 1984), p. 45.
30.
PealatM.BouchardyP.LefebvreM., and TaranJ.-P. E., Appl. Opt.24, 1012 (1985).
31.
KreutnerW.StrickerW., and JustTh., Ber. Bunsenges. Phys. Chem.87, 1045 (1983).
32.
LongD. A., Raman Spectroscopy (McGraw-Hill, New York, 1977), p. CRS-13.
33.
JamesT. C. and KlempererW., J. Chem. Phys.31, 130 (1959).
34.
GilsonT. R.BeattieI. R.BlackJ. D.GreenhalghD. A., and JennyS. N., J. Raman Spectr.9, 361 (1980).
35.
HallR. J., Combust. Flame35, 47 (1979).
36.
FujiS.GomiM., and JinY., Combust. Flame48, 233 (1982).
37.
FurunoS.AkihamaK.HanabusaM.IguchiS., and InoueT., Combust. Flame54, 149 (1983).
38.
RahnL. A.OwyoungA.ColtrinM. E., and KoszykowskiM. L., in Proceedings, VIIth Int. Conf. on Raman Spectroscopy, MurphyW. F., Ed. (North Holland, New York, 1980), p. 694.
39.
HallR. J., Appl. Spectrosc.34, 700 (1980).
40.
RobertD. and BonamyJ., J. de Physique40, 923 (1979).
41.
YuratichM. A., Mol. Phys.38, 625 (1979).
42.
KataokaH.MaedaS., and HiroseC., Appl. Spectrosc.36, 565 (1982).
43.
TeetsR. E., Opt. Lett.9, 226 (1984).
44.
HallR. J., Opt. Commun.52, 360 (1985).
45.
FarrowR. L. and RahnL. A., J. Opt. Soc. Am.B 2, 903 (1985).
46.
KimH., J. Chem. Ed.47, 120 (1970).
47.
LedermanS. and PosillicoC., AIAA J.19, 824 (1981).
48.
EckbrethA. C., Appl. Phys. Lett.32, 421 (1978).
49.
AntcliffR. R.HillardM. E., and JarrettO.Jr., Appl. Opt.23, 2369 (1984).
50.
SnellingD. R.SawchuckR. A., and SmallwoodG. J., Appl. Opt.23, 4083 (1984).
51.
EnglandW. A.MilneJ. M.JennyS. N., and GreenhalghD. A., Appl. Spectrosc.38, 867 (1984).
52.
AndersonP. W., Phys. Rev.76, 647 (1949).
53.
TsaoC. J. and CurnutteB., J. Quant. Spectrosc. Radiat. Transfer2, 41 (1962).
54.
WeberA., “High-Resolution Raman Studies of Gases,” in The Raman Effect, AndersonA., Ed. (Marcel Dekker, New York, 1973), Vol. 2, p. 543.
55.
GreenhalghD. A. and WhittleyS. T., Appl. Opt.24, 907 (1985).
56.
LavorelB.MillotG.Saint-LoupR.WengerC.BergerH.SalaJ. P.BonamyJ., and RobertD., J. de Physique47, 417 (1986).
