Abstract

No abstract available.

Full Article  |  PDF Article

References

  • View by:
  • |
  • |
  • |

  1. Ives, “The Vectorial Photoelectric Effect,” Phys. Rev. 38, 1209 (1931).
    [Crossref]
  2. Ives and Briggs, “The Optical Constants of Potassium,” J. O. S. A.this issue.
  3. The complete theory is given in the paper above cited (reference 1) and in mathematical detail by Fry in “Plane Waves of Light III” (J. O. S. A. 22, 307 (1932)) from which the formula here given is quoted. This latter paper should be consulted for the meaning of the various symbols, and for the methods of computation.
    [Crossref]
  4. Ives and Briggs, “The Photoelectric Effect from Thin Films of Alkali Metal on Silver,” Phys. Rev. 38, 1477 (1931).
    [Crossref]
  5. Suhrmann and Thiessing, Zeits. f. Physik 55, 701 (1929).
    [Crossref]
  6. Cashman and Huxford, Phys. Rev. 48, 734 (1935).
    [Crossref]
  7. Fleischer and Dember, Zeits. f. tech. Physik 7, 133 (1926).

1935 (1)

Cashman and Huxford, Phys. Rev. 48, 734 (1935).
[Crossref]

1932 (1)

The complete theory is given in the paper above cited (reference 1) and in mathematical detail by Fry in “Plane Waves of Light III” (J. O. S. A. 22, 307 (1932)) from which the formula here given is quoted. This latter paper should be consulted for the meaning of the various symbols, and for the methods of computation.
[Crossref]

1931 (2)

Ives and Briggs, “The Photoelectric Effect from Thin Films of Alkali Metal on Silver,” Phys. Rev. 38, 1477 (1931).
[Crossref]

Ives, “The Vectorial Photoelectric Effect,” Phys. Rev. 38, 1209 (1931).
[Crossref]

1929 (1)

Suhrmann and Thiessing, Zeits. f. Physik 55, 701 (1929).
[Crossref]

1926 (1)

Fleischer and Dember, Zeits. f. tech. Physik 7, 133 (1926).

Briggs,

Ives and Briggs, “The Photoelectric Effect from Thin Films of Alkali Metal on Silver,” Phys. Rev. 38, 1477 (1931).
[Crossref]

Ives and Briggs, “The Optical Constants of Potassium,” J. O. S. A.this issue.

Cashman,

Cashman and Huxford, Phys. Rev. 48, 734 (1935).
[Crossref]

Dember,

Fleischer and Dember, Zeits. f. tech. Physik 7, 133 (1926).

Fleischer,

Fleischer and Dember, Zeits. f. tech. Physik 7, 133 (1926).

Fry,

The complete theory is given in the paper above cited (reference 1) and in mathematical detail by Fry in “Plane Waves of Light III” (J. O. S. A. 22, 307 (1932)) from which the formula here given is quoted. This latter paper should be consulted for the meaning of the various symbols, and for the methods of computation.
[Crossref]

Huxford,

Cashman and Huxford, Phys. Rev. 48, 734 (1935).
[Crossref]

Ives,

Ives and Briggs, “The Photoelectric Effect from Thin Films of Alkali Metal on Silver,” Phys. Rev. 38, 1477 (1931).
[Crossref]

Ives, “The Vectorial Photoelectric Effect,” Phys. Rev. 38, 1209 (1931).
[Crossref]

Ives and Briggs, “The Optical Constants of Potassium,” J. O. S. A.this issue.

Suhrmann,

Suhrmann and Thiessing, Zeits. f. Physik 55, 701 (1929).
[Crossref]

Thiessing,

Suhrmann and Thiessing, Zeits. f. Physik 55, 701 (1929).
[Crossref]

J. O. S. A. (1)

The complete theory is given in the paper above cited (reference 1) and in mathematical detail by Fry in “Plane Waves of Light III” (J. O. S. A. 22, 307 (1932)) from which the formula here given is quoted. This latter paper should be consulted for the meaning of the various symbols, and for the methods of computation.
[Crossref]

Phys. Rev. (3)

Ives and Briggs, “The Photoelectric Effect from Thin Films of Alkali Metal on Silver,” Phys. Rev. 38, 1477 (1931).
[Crossref]

Ives, “The Vectorial Photoelectric Effect,” Phys. Rev. 38, 1209 (1931).
[Crossref]

Cashman and Huxford, Phys. Rev. 48, 734 (1935).
[Crossref]

Zeits. f. Physik (1)

Suhrmann and Thiessing, Zeits. f. Physik 55, 701 (1929).
[Crossref]

Zeits. f. tech. Physik (1)

Fleischer and Dember, Zeits. f. tech. Physik 7, 133 (1926).

Other (1)

Ives and Briggs, “The Optical Constants of Potassium,” J. O. S. A.this issue.

Cited By

OSA participates in Crossref's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.


Figures (3)

Fig. 1
Fig. 1

Calculated and observed photoelectric emission from thin film of potassium on platinum-iridium.

Fig. 2
Fig. 2

Calculated and observed photoelectric emission from thin film of potassium on platinum.

Fig. 3
Fig. 3

Calculated bulk and surface layer photoelectric emission from potassium.

Tables (4)

Tables Icon

Table I Optical constants of potassium.

Tables Icon

Table II Optical constants of platinum-iridium (85 percent Pl, 15 percent Ir).

Tables Icon

Table III Absorption, thin film of potassium on platinum-iridium. (Relative values.)

Tables Icon

Table IV Absorption, thin film of potassium on platinum. (Relative values.)

Equations (2)

Equations on this page are rendered with MathJax. Learn more.

A L ( N 1 K 10 p 2 μ 1 π ) ( | E x E | 2 + | E y E | 2 + | g g 1 | 2 | E z E | 2 ) ζ ( N Λ 0 p cos I / 8 π 2 μ ) .
g / g 1 ( = N 2 / ( N 1 + i K 10 ) 2 )