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References

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  1. Landolt-Börnstein, Meyerhofen. Phys. Chem. Tab. (1905).
  2. J. C. Slater and N. H. Frank, Introduction to Theoretical Physics (McGraw-Hill, 1933), p. 280.
  3. D. M. Dennison, Rev. Mod. Phys. 3, 302 (1931).
    [Crossref]
  4. W. W. Coblentz, Investigations of Infra-Red Spectra (Carnegie Institution of Washington, 1905).
  5. J. Lecomte, Traite de Chemie Organique (Grignard, 1936), Vol. II, p. 197.
  6. Max Born, Optics, p. 471.

1931 (1)

D. M. Dennison, Rev. Mod. Phys. 3, 302 (1931).
[Crossref]

1905 (1)

Landolt-Börnstein, Meyerhofen. Phys. Chem. Tab. (1905).

Born, Max

Max Born, Optics, p. 471.

Coblentz, W. W.

W. W. Coblentz, Investigations of Infra-Red Spectra (Carnegie Institution of Washington, 1905).

Dennison, D. M.

D. M. Dennison, Rev. Mod. Phys. 3, 302 (1931).
[Crossref]

Frank, N. H.

J. C. Slater and N. H. Frank, Introduction to Theoretical Physics (McGraw-Hill, 1933), p. 280.

Lecomte, J.

J. Lecomte, Traite de Chemie Organique (Grignard, 1936), Vol. II, p. 197.

Slater, J. C.

J. C. Slater and N. H. Frank, Introduction to Theoretical Physics (McGraw-Hill, 1933), p. 280.

Meyerhofen. Phys. Chem. Tab. (1)

Landolt-Börnstein, Meyerhofen. Phys. Chem. Tab. (1905).

Rev. Mod. Phys. (1)

D. M. Dennison, Rev. Mod. Phys. 3, 302 (1931).
[Crossref]

Other (4)

W. W. Coblentz, Investigations of Infra-Red Spectra (Carnegie Institution of Washington, 1905).

J. Lecomte, Traite de Chemie Organique (Grignard, 1936), Vol. II, p. 197.

Max Born, Optics, p. 471.

J. C. Slater and N. H. Frank, Introduction to Theoretical Physics (McGraw-Hill, 1933), p. 280.

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Figures (3)

Tables (2)

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Table I CHCl3 at 20°C.

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Table II CHBr3 at 20°C.

Equations (8)

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n D 1.44621 chloroform n D 1.58900 bromoform .
m x ¨ + b x ˙ + a x = e E 0 e i ω t
n 2 = 1 + k ( N k e 2 / π m ) ( ν k 2 - ν 2 ) ( ν k 2 - ν 2 ) 2 + ( ν b k / 2 π m ) 2 .
n 2 = 1 + ( N 0 e 2 f k / π m ) ( ν k 2 - ν 2 ) ( ν k 2 - ν 2 ) 2 + K 2 + F ( ν 2 ) ,
= 10 8 M M ρ π c 2 N L 2 e 2 2 n ( λ 1 - λ 2 ) λ 0 3 × { n 1 = n 2 - 2 ( n 1 0 - n 2 0 ) } ,
f = 3.380 M M ρ 2 n ( λ 1 - λ 2 ) λ 0 3 × { n 1 - n 2 - 2 ( n 1 0 - n 2 0 ) } ,
λ 1 = 3.32 μ , n 1 = 1.56392 , n 1 ° = 1.56282 , λ 2 = 3.23 μ , n 2 = 1.56193 , n 2 ° = 1.56307. λ 0 = 3.28 μ n = 1.56293 ,
CHBr 3 3.28 μ 2.21 × 10 - 3 CHBr 3 8.8 μ 5.46 × 10 - 3 CHCl 3 3.28 μ 1.27 × 10 - 3 CHCl 3 8.4 μ 2.87 × 10 - 3