Literaturverzeichnis

1. W. Kiefer, H.W. Schrötter; Verbesserung des Signal-Rausch-Verhältnisses bei der Registrierung von Ramanspektren mit 50 Hz-Rubinlaser-Anregung. Z.angew. Phys. 25.Bd., Heft 4, 236–39, 1968

   Google Scholar 

2. W. Finckelnburg; Einführung in die Atomphysik. Springer-Verlag, Berlin und Heidelberg, 11./12. Auflage 1967

   Book  Google Scholar 

3. N.A. Chigier; Instrumentation Techniques for Studying Heterogeneous Combustion. Central States Section/The Combustion Institute Technical Meeting; Fluid Mechanics of Combustion Processes NASA Lewis Res. Center, Cleveland, Ohio/March 28–30,1977

   Google Scholar 

4. R.H. Barnes, J.F. Kircher; Laser NO₂ Fluorescence Measurements Flames. Appl.Opt., Vol. 17, 1099–1102, 1978

   Article  Google Scholar 

5. F. Moya, S.A.J. Druet, J.P.E. Taran; Gas Spectroscopy and Temperature Measurement by Coherent Raman Anti-Stokes Scattering. Opt. Communic., Vol. 13, 169–74, 1975

   Article  Google Scholar 

6. A. Hirth; Application de la diffusion Raman anti-Stokes cohérente à l’étude des ecoulements gazeux. ISL-Bericht R 116/77, 1977

   Google Scholar 

7. W.M. Tolles, R.D. Turner; A Comparative Analysis of the Analytical Capabilities of Coherent Anti-Stokes Raman Spectroscopy (CARS) Relative to Raman Scattering and Absorption Spectroscopy. Appl. Spectrosc., Vol. 31, 96–103, 1977

   Article  Google Scholar 

8. G.F. Widhopf, S. Lederman; Specie Concentration Measurements Utilizing Laser Induced Raman Scattering. AIAA-Paper No. 70–224,1970

   Google Scholar 

9. G.F. Widhopf, S. Lederman; Specie Concentration Measurements Utilizing Raman Scattering of a Laser Beam. AIAA-Journ., Vol. 9, 309–16, 1971

   Article  Google Scholar 

10. D.A. Long; Raman Spectroscopy. McGraw-Hill, London, 1977

    Google Scholar 

11. M. Lapp, C.M. Penney; Raman Measurements on Flames, in: Advances in Infrared and Raman Spectroscopy — Vol. 3, S. 204–61, R.J.H. Clark u. R.E. Hester (Hrsg.), Heyden, London, 1977

    Google Scholar 

12. J.J Barrett, N.I. Adams III.; Laser-Excited Rotation-Vibration Raman Scattering in Ultra-Small Gas Samples. J.Opt. Soc. Am., Vol. 58, 311–19, 1968

    Article  Google Scholar 

13. R. Goulard; Laser Raman Scattering Applications. J. Quant. Spectrosc. Radiat. Transfer, Vol. 14, 969–74, 1974

    Article  Google Scholar 

14. A.R. Bandy, M.E. Hillard, L.E. Emory; Evaluation of Raman-Scattering as a Sensor of Temperature and Molecular Density. Appl. Spectrosc., Vol. 27, 421–24, 1973

    Article  Google Scholar 

15. R.E. Setchell, D.P. Aeschliman; Fluorescence Interferences in Raman Scattering from Combustion Products, Appl. Spectrosc.,Vol. 31, 530–35, 1977

    Article  Google Scholar 

16. A.J. Mulac, W.L. Flower, R.A. Hill. D.P. Aeschliman; Pulsed Spontaneous Raman Scattering Technique for Luminous Environments. Appl. Opt., Vol. 17, 2695–99, 1978

    Article  Google Scholar 

17. R.A. Hill, D.L. Hartley; Focused, Multiple-Pass Cell for Raman Scattering. Appl.Opt., Vol.13, 186–92, 1974

    Article  Google Scholar 

18. R.A. Hill, J.A. Mulac, C.E. Hackett; Retroreflecting Multipass Cell for Raman Scattering. Appl.Opt., Vol. 16, 2004–06, 1977

    Article  Google Scholar 

19. H.F. Döberle, K. Gindele; Electrooptically Switched Multipass System for Laser Scattering Diagnostics. Appl.Opt., Vol. 16, 2403–07, 1977

    Article  Google Scholar 

20. G. Placzek, Rayleigh-Streuung und Raman-Effekt, in: Handbuch der Radiologie — Band VI, Teil II. S. 205–374, Akadem. Verlagsgesell., Leipzig, 1934

    Google Scholar 

21. G. Herzberg; Molecular Spectra and Molecular Structure: I. Spectra of Diatomic Molecules. Van Nostrand, Princeton-New York, 2. Auflage 1966

    Google Scholar 

22. G. Herzberg; Molecular Spectra and Molecular Structure: II. Infrared and Raman Spectra of Polyatomic Molecules. Van Nostrand, Princeton-New York, 1966

    Google Scholar 

23. J. Brandmüller, H. Moser; Einführung in die Ramanspektroskopie. Steinkopff-Verlag, Darmstadt, 1962

    Book  Google Scholar 

24. H.A. Szymanski (Hrsg.); Raman Spectroscopy. Volume 1, Plenum Press, New York, 1967

    Google Scholar 

25. H.A. Szymanski (Hrsg.); Raman Spectroscopy. Volume 2, Plenum Press, New York, 1970

    Google Scholar 

26. K. Altmann, G. Strey; Ein Verfahren zur Computer-Simulation der Rotationsstruktur von Raman-Banden. Z. Naturforschung, Band 27a, 65–67, 1972

    Google Scholar 

27. C.M. Penney, R.L.St. Peters, M. Lapp; Absolute Rotational Raman Cross Sections for N₉,O₉, and CO₉. J. Opt. Soc.Am., Vol. 64, 712–16,1974

    Article  Google Scholar 

28. W.R. Fenner, H.A. Hyatt, J.M. Kellam, S.P.S. Porto; Raman Cross Section of Some Simple Gases. J.Opt.Soc.Am., Vol. 63, 73–77, 1973

    Article  Google Scholar 

29. D.G. Fouche, R.K. Chang; Relative Raman Cross Section for N₂ O₂/CO, CO₂, SO₂, and H₂S. Appl. Phys. Letters, Vol.18, 579–80, 1971

    Article  Google Scholar 

30. R.K. Chang, D.G. Fouche; Gains in Detecting Pollution. Laser Focus, Vol. 8, 43–45, 1972

    Google Scholar 

31. D.G. Fouche, R.K. Chang; Relative Raman Cross Section for O₃, C₃H₈, NO, N₂O and H₂. Appl.Phys.Letters, Vol.20, 256–57, 1972

    Article  Google Scholar 

32. C.M. Penney, L.M. Goldman, M. Lapp; Raman Scattering Cross Sections. Nature Phys. Science, Vol.235, 11o-12, 1972

    Google Scholar 

33. H.A. Hyatt, J.M. Cherlow, W.R. Fenner, S.P.S. Porto; Cross Section for the Raman Effect in Molecular Nitrogen Gas. J.Opt.Soc.Am., Vol. 63, 1604–06, 1973

    Article  Google Scholar 

34. H.W. Schrötter, H.W. Klöckner; Raman Scattering Cross Sections in Gases and Liquids, in: Raman Spectroscopy of Gases and Liquids, S. 126–66, A. Weber (Hrsg.), Springer-Verlag, Berlin-Heidelberg, 1979

    Google Scholar 

35. H. Shimizu, T. Kobayasi, H. Inaba; zitiert in [34], Oyo Buturi (Publ. Japan Soc. Appl. Phys.), Vol.24, 889, 1973

    Google Scholar 

36. J.I. Levatter, R.L. Sandstrom, S.-C. Lin; zitiert in [34], J.Appl.Phys., Vol. 44, 3273, 1973

    Article  Google Scholar 

37. W. Arden; zitiert in [34], Remote Raman Detection Study Instrument, 6th Quart. Prog. Rpt., Edgewood Arsenal Contract, DAAA 15–70-C-0418, 1972

    Google Scholar 

38. H. Kamiyama, S. Okano, H. Maruyama; zitier in [34], Paper III-5 at VIth Int. Laser Radar Conf., Sendai, Japan, 1974

    Google Scholar 

39. J.G. Hochenbleicher; zitiert in [34], Dissertation, Universität München, 1977

    Google Scholar 

40. A.A. Eliseev, T.N. Popova, C.P. Churakov; zitiert in [34], Experimental Determination of Differential Raman Scattering Cross Sections for Molecules of some Gases (Russ.). in: Materialy II Vsesoyuznoy Konferentsii, S. 111 ff, Akademiya Nauk SSSR, Moskau, 1978

    Google Scholar 

41. J.G. Hochenbleicher, W. Klöckner, H.W. Schrötter; Messung von Raman-Streuquerschnitten an Gasen. Status of Laser Applications Technology in the Field of Air-Purity Preservation. Lectures at Laser Meeting, Essen, S.19l-204, 1974

    Google Scholar 

42. G.E. Bresowar, D.A. Leonard; Measurement of Gas Turbine Exhaust Pollutants by Raman Spectoscopy. AIAA-Paper No.73–1276 1973

    Google Scholar 

43. R.L. Schwiesow; zitiert in [34], AIAA-Journ., Vol.11,87,1973

    Article  Google Scholar 

44. D.A. Leonard; Measurement of NO and SO₂ Raman-Scattering Cross Sections. J.Appl. Phys., Vol.41, 4238–39, 1970

    Article  Google Scholar 

45. J.M. Hoell, F. Allario, O. Jarrett, R.K. Seals; Measurements of F₂, NO, and ONF Raman Cross Sections and Depolarization Ratios for Diagnostics in Chamical Lasers. J.Chem.Phys., Vol. 58, 289 6–290l, 1973

    Google Scholar 

46. J.Mo Cherlow, S.P.S. Porto; Laser Raman Spectroscopy of Gases, in: Laser Spectroscopy of Atoms and Molecules, H. Walter (Hrsg.), S.253–82, Springer-Verlag, Berlin-Heidelberg-New York, 1976

    Chapter  Google Scholar 

47. J.M. Cherlow, H.A. Hyatt, S.P.S. Porto; Raman Scattering in Hydrogen Halide Gases. J.Chem.Phys., Vol.63, 3996–4000,1975

    Article  Google Scholar 

48. N. Abe, M. Wakayama, M. Ito; zitiert in [34]. J. Raman Spectrosc. Vol. 6, 38, 1977

    Article  Google Scholar 

49. D. Bermejo, R. Escribano, J.M. Orza; zitiert in [34]. J. Mol.Spectrosc., Vol. 65, 345, 1977

    Article  Google Scholar 

50. R.O. Kagel; zitiert in [34]. Dissertation, University of Minnesota, 1964

    Google Scholar 

51. C.M. Penney, M. Lapp; Raman-Scattering Cross Sections for Water Vapor. J.Opt.Soc.Am., Vol. 66, 422–25, 1976

    Article  Google Scholar 

52. S. Ledermann; Some Applications of Laser Diagnostics to Fluid Dynamics. AIAA-Paper No. 76–21, 1976

    Google Scholar 

53. R.D. Evans; The Atomic Nucleus. McGraw-Hill, NewYork-Toronto-London, 11. Auflage 1967

    Google Scholar 

54. A. Leipertz, M. Fiebig; Optical Energy and Spatial Filter for High Local Resolution Raman Spectroscopy with Giant Pulse Lasers. Appl.Opt., Vol. 18, 357–59, 1979

    Article  Google Scholar 

55. O. Theimer; Scattering Cross Section of Ideal Gases for Narrow Laser Beams. Phys. Rev. Letters, Vol.13, 622–25, 1964

    Article  Google Scholar 

56. R.L. Schwiesow; Optimum Illumination Geometry for Laser Raman Spectroscopy. J.Opt.Soc.Am., Vol.59, 1285–87, 1969

    Article  Google Scholar 

57. W. Krahn, K. Stursberg; Konzentrationsmessung mit Laserstreulicht in einem Freistrahl, DLR-FB 75–02, 1975

    Google Scholar 

58. E.D. Hirleman, W.H. Stevenson; Intensity Distribution Properties of a Gaussian Laser Beam Focus. Appl.Opt., Vol.17, 3496–99, 1978

    Article  Google Scholar 

59. DIN 1319, Blatt 3; Grundbegriffe der Meßtechnik, Begriffe für die Fehler beim Messen, 1968

    Google Scholar 

60. R.H. Leaver, T.R. Thomas; Versuchsauswertung, Vieweg-Verlag, Braunschweig, 1977

    Book  MATH  Google Scholar 

61. W.D. Williams, H.M. Power, R.L. McGuire, J.H. Jones, L.L. Price, J.W.L. Lewis; Laser-Raman Diagnostics of Temperature and Number Density in the Mixing Region of a Rocket Engine Exhaust and a Coflowing Air Stream. AIAA-Paper No. 77–211, 1977

    Google Scholar 

62. R.G. Meyerand, A.F. Haught; Gas Breakdown at Optical Frequencies, Phys. Rev.Letters, Vol.11, 401–03, 1964

    Article  Google Scholar 

63. H.T. Buscher, R.G. Tomlinson, E.K. Damon; Frequency Dependence of Optically Induced Gas Breakdown. Phys. Rev. Letters, Vol. 15, 847–49, 1965

    Article  Google Scholar 

64. G.L. Switzer, C.G. Mayers, W.B. Roh; Gas Breakdown Thresholds in Flame Induced by Ruby Laser. AIAA-Journ.,Vol.16, 766–68 1978

    Article  Google Scholar 

65. J. Bornstein, S. Lederman; Experimental Investigation of Coaxial Turbulent Jets. Conf. Proceedings LASER 77 — OPTOELECTRONICS, München, 1977, S. 443–55, IPS Press, Guildford (GB), 1977

    Google Scholar 

66. S.P.S. Porto, J.A. Giordaine, T.C. Damen; Depolarization of Raman Scattering in Calcite. Phys.Rev., Vol.147, 608–11,1966

    Article  Google Scholar 

67. W.F. Murphy, W. Holzer, H.J. Bernstein; Gas Phase Raman Intensities: A Review of “Pre-Laser”Data. Appl.Spectrosc. Vol. 23, 211–18, 1969

    Article  Google Scholar 

68. Wo Holzer, Y. Le Duff; The Depolarization Ratio of the Raman Bands of the Vibration of Diatomic Molecules, in: Advances in Raman Spectroscopy, S. 109–14, J.P. Mathieu (Hrsg.), Heyden, London, 1973

    Google Scholar 

69. S.H. Melfi; Raman Backscatter of Laser Radiation in the Earth’s Atmosphere. Dissertation, Coll. William and Mary in Virginia, USA, 1970

    Google Scholar 

70. G.L. Squires; Meßergebnisse und ihre Auswertung, de Gruyter-Verlag, Berlin-New York, 1971

    Google Scholar 

71. C.W. Peterson; A Survey of the Utilitarian Aspects of Advanced Flow-Field Diagnostic Techniques, 10th Aerodyn. Testing Conference, San Diego, Calif., April 19–21, 1978

    Google Scholar 

72. J.W.L. Lewis, W.D. Williams; Measurement of Temperature and Number Density in Hypersonic Flow Fields Using Laser Raman Spectroscopy. AIAA-Paper No. 75–175, 1975

    Google Scholar 

73. W.D. Williams, J.W.L. Lewis; Raman and Rayleigh Scattering Diagnostics of a Two-Phase Hypersonic N₂ Flowfield. AIAA-Journ., Vol. 13, 709–10, 1975

    Article  Google Scholar 

74. M.E. Hillard Jr., M.L. Emory, A.R. Bandy; Remote Sensing of CF. Number Density in a Hypersonic Flow Using Raman Scattering. AIAA-Journ., Vol. 11, 775–76, 1973

    Article  Google Scholar 

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