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References

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  1. G. F. Widhopf, S. Lederman, AIAA J. 9, 309 (1971).
    [CrossRef]
  2. S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
    [CrossRef]
  3. R. Goulard, J. Quant. Spectrosc. Radiat. Transfer 14, 969 (1974).
    [CrossRef]
  4. M. Lapp, C. M. Penney, in Advances of Infrared and Raman Spectroscopy, R. J. H. Clark, R. E. Hester, Eds. (Heyden, London, 1977), Vol. 3, pp. 204–261.
  5. A. J. Mulac, W. L. Flower, R. A. Hill, D. P. Aeschliman, Appl. Opt. 17, 2695 (1978).
    [CrossRef] [PubMed]
  6. A. Leipertz, M. Fiebig, Opt. Eng. 18, 409 (1979).
    [CrossRef]
  7. H. W. Schrötter, H. W. Klöckner, in Raman Spectroscopy of Gases and Liquids, A. Weber, Ed. (Springer, New York, 1979), pp. 123–166.
    [CrossRef]
  8. A. Leipertz, M. Fiebig, Appl. Opt. 18, 357 (1979).
    [CrossRef] [PubMed]
  9. M. Fiebig, A. Leipertz, Forschungsber. Landes Nordrhein Westfalen2922 (1980).

1980

M. Fiebig, A. Leipertz, Forschungsber. Landes Nordrhein Westfalen2922 (1980).

1979

1978

1974

S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
[CrossRef]

R. Goulard, J. Quant. Spectrosc. Radiat. Transfer 14, 969 (1974).
[CrossRef]

1971

G. F. Widhopf, S. Lederman, AIAA J. 9, 309 (1971).
[CrossRef]

Aeschliman, D. P.

Bloom, M. H.

S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
[CrossRef]

Bornstein, J.

S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
[CrossRef]

Fiebig, M.

M. Fiebig, A. Leipertz, Forschungsber. Landes Nordrhein Westfalen2922 (1980).

A. Leipertz, M. Fiebig, Appl. Opt. 18, 357 (1979).
[CrossRef] [PubMed]

A. Leipertz, M. Fiebig, Opt. Eng. 18, 409 (1979).
[CrossRef]

Flower, W. L.

Goulard, R.

R. Goulard, J. Quant. Spectrosc. Radiat. Transfer 14, 969 (1974).
[CrossRef]

Hill, R. A.

Khosla, P. K.

S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
[CrossRef]

Klöckner, H. W.

H. W. Schrötter, H. W. Klöckner, in Raman Spectroscopy of Gases and Liquids, A. Weber, Ed. (Springer, New York, 1979), pp. 123–166.
[CrossRef]

Lapp, M.

M. Lapp, C. M. Penney, in Advances of Infrared and Raman Spectroscopy, R. J. H. Clark, R. E. Hester, Eds. (Heyden, London, 1977), Vol. 3, pp. 204–261.

Lederman, S.

S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
[CrossRef]

G. F. Widhopf, S. Lederman, AIAA J. 9, 309 (1971).
[CrossRef]

Leipertz, A.

M. Fiebig, A. Leipertz, Forschungsber. Landes Nordrhein Westfalen2922 (1980).

A. Leipertz, M. Fiebig, Appl. Opt. 18, 357 (1979).
[CrossRef] [PubMed]

A. Leipertz, M. Fiebig, Opt. Eng. 18, 409 (1979).
[CrossRef]

Mulac, A. J.

Penney, C. M.

M. Lapp, C. M. Penney, in Advances of Infrared and Raman Spectroscopy, R. J. H. Clark, R. E. Hester, Eds. (Heyden, London, 1977), Vol. 3, pp. 204–261.

Schrötter, H. W.

H. W. Schrötter, H. W. Klöckner, in Raman Spectroscopy of Gases and Liquids, A. Weber, Ed. (Springer, New York, 1979), pp. 123–166.
[CrossRef]

Widhopf, G. F.

G. F. Widhopf, S. Lederman, AIAA J. 9, 309 (1971).
[CrossRef]

AIAA J.

G. F. Widhopf, S. Lederman, AIAA J. 9, 309 (1971).
[CrossRef]

Appl. Opt.

Forschungsber. Landes Nordrhein Westfalen

M. Fiebig, A. Leipertz, Forschungsber. Landes Nordrhein Westfalen2922 (1980).

Int. J. Heat Mass Transfer

S. Lederman, M. H. Bloom, J. Bornstein, P. K. Khosla, Int. J. Heat Mass Transfer 17, 1479 (1974).
[CrossRef]

J. Quant. Spectrosc. Radiat. Transfer

R. Goulard, J. Quant. Spectrosc. Radiat. Transfer 14, 969 (1974).
[CrossRef]

Opt. Eng.

A. Leipertz, M. Fiebig, Opt. Eng. 18, 409 (1979).
[CrossRef]

Other

H. W. Schrötter, H. W. Klöckner, in Raman Spectroscopy of Gases and Liquids, A. Weber, Ed. (Springer, New York, 1979), pp. 123–166.
[CrossRef]

M. Lapp, C. M. Penney, in Advances of Infrared and Raman Spectroscopy, R. J. H. Clark, R. E. Hester, Eds. (Heyden, London, 1977), Vol. 3, pp. 204–261.

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Figures (4)

Fig. 1
Fig. 1

Measured Raman intensity dependence on polarization angle θ.

Fig. 2
Fig. 2

Measured Raman intensity as a function of pressure for different polarization angle adjustments.

Fig. 3
Fig. 3

Experimental Raman intensity ratios and theoretical curves for varied polarization angle adjustments.

Fig. 4
Fig. 4

Experimental Raman intensity dependence on CO2 molar concentration.

Equations (4)

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I = k · I 0 · n ( d σ / d Ω ) Ω · l ,
d σ d Ω = ( 2 π ) 4 ( ν 0 ν j ) 4 · g j ( 45 α j 2 + 7 γ j 2 ) 45 [ 1 exp ( h c ν j / k T ) ] b j 2 × 2 ρ j + ( 1 ρ j ) sin 2 θ 1 + ρ j .
2 ρ j + ( 1 ρ j ) sin 2 θ 1 + ρ j = 1 1 ρ j 1 + ρ j cos 2 θ = 1 .
I ( θ ) = I ( 19 ° ) ( 1 1 ρ j 1 + ρ j cos 2 θ ) .

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