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References

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  1. A. H. Pfund, J. O. S. A. 24, 143 (1934).
    [Crossref]
  2. H. Rubens, Ann. d. Physik 45, 238 (1892).
    [Crossref]
  3. Landolt Börnstein and Meyerhoffer, Phys.-Chem. Tabellen (1905), p. 671.
  4. W. W. Coblentz. Inv. of Infrared Spectra (Carnegie Institute, 1905).
  5. Flatow, Drudes Ann. 12, 85 (1906).
  6. Kayser’s Handbuch der Spektroskopie, Vol. IV (1908), p. 504
  7. The 1965 band is known to be of electronic origin, hence its position ought not to be influenced greatly by the physical state of the material. This is substantiated by the work of W. C. Price (Washington Meeting Am. Phys. Soc., April 23, 1935;Phys. Rev. 47, 788A (1935)) on CS2 vapor. He finds a broad absorption band with its center near 1990A.
  8. S. W. Leifson, Astrophys. J. 63, 87 (1926).
    [Crossref]
  9. A. H. Pfund, Zeits. f. Wiss. Phot. 12, 346 (1913).

1934 (1)

A. H. Pfund, J. O. S. A. 24, 143 (1934).
[Crossref]

1926 (1)

S. W. Leifson, Astrophys. J. 63, 87 (1926).
[Crossref]

1913 (1)

A. H. Pfund, Zeits. f. Wiss. Phot. 12, 346 (1913).

1906 (1)

Flatow, Drudes Ann. 12, 85 (1906).

1905 (1)

Landolt Börnstein and Meyerhoffer, Phys.-Chem. Tabellen (1905), p. 671.

1892 (1)

H. Rubens, Ann. d. Physik 45, 238 (1892).
[Crossref]

Coblentz, W. W.

W. W. Coblentz. Inv. of Infrared Spectra (Carnegie Institute, 1905).

Flatow,

Flatow, Drudes Ann. 12, 85 (1906).

Landolt Börnstein,

Landolt Börnstein and Meyerhoffer, Phys.-Chem. Tabellen (1905), p. 671.

Leifson, S. W.

S. W. Leifson, Astrophys. J. 63, 87 (1926).
[Crossref]

Meyerhoffer,

Landolt Börnstein and Meyerhoffer, Phys.-Chem. Tabellen (1905), p. 671.

Pfund, A. H.

A. H. Pfund, J. O. S. A. 24, 143 (1934).
[Crossref]

A. H. Pfund, Zeits. f. Wiss. Phot. 12, 346 (1913).

Price, W. C.

The 1965 band is known to be of electronic origin, hence its position ought not to be influenced greatly by the physical state of the material. This is substantiated by the work of W. C. Price (Washington Meeting Am. Phys. Soc., April 23, 1935;Phys. Rev. 47, 788A (1935)) on CS2 vapor. He finds a broad absorption band with its center near 1990A.

Rubens, H.

H. Rubens, Ann. d. Physik 45, 238 (1892).
[Crossref]

Ann. d. Physik (1)

H. Rubens, Ann. d. Physik 45, 238 (1892).
[Crossref]

Astrophys. J. (1)

S. W. Leifson, Astrophys. J. 63, 87 (1926).
[Crossref]

Drudes Ann. (1)

Flatow, Drudes Ann. 12, 85 (1906).

J. O. S. A. (1)

A. H. Pfund, J. O. S. A. 24, 143 (1934).
[Crossref]

Phys.-Chem. Tabellen (1)

Landolt Börnstein and Meyerhoffer, Phys.-Chem. Tabellen (1905), p. 671.

Zeits. f. Wiss. Phot. (1)

A. H. Pfund, Zeits. f. Wiss. Phot. 12, 346 (1913).

Other (3)

W. W. Coblentz. Inv. of Infrared Spectra (Carnegie Institute, 1905).

Kayser’s Handbuch der Spektroskopie, Vol. IV (1908), p. 504

The 1965 band is known to be of electronic origin, hence its position ought not to be influenced greatly by the physical state of the material. This is substantiated by the work of W. C. Price (Washington Meeting Am. Phys. Soc., April 23, 1935;Phys. Rev. 47, 788A (1935)) on CS2 vapor. He finds a broad absorption band with its center near 1990A.

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Figures (4)

F. 1
F. 1

Dispersion of carbon disulphide.

F. 2
F. 2

Dispersion of carbon tetrachloride.

F. 3
F. 3

Transmission of pure CS2.

F. 4
F. 4

Cylindrical quartz cell for transmission measurements of highly absorbing liquids.

Tables (2)

Equations (1)

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CS 2 μ D = 1.6275 at 20.0 ° C , CCl 4 μ D = 1.4607 .