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  1. Maughan, Am. J. Physiol. 87, 381 (1928).
  2. Abbot, Smithsonian Miscellaneous Collection 74, 15 (1923).
  3. Fabry and Buisson, Comptes Rendus 175, 156 (1922); Astrophys. J. 54, 297 (1921).
    [CrossRef]
  4. O’Brien, Phys. Rev. 36, 381 (1930).
  5. Greider and Downes, Trans. Ill. Eng. Soc. 25, 378 (1930).
  6. Pettit, Astrophys. J. 75, 185 (1932).
    [CrossRef]
  7. Coblentz, Bur. Standards J. Research 6, 951 (1931).
    [CrossRef]
  8. J.O.S.A. 20, 396 (1930).
    [CrossRef]
  9. Marden and Nicholson, Trans. I.E.S. 26, 592 (1931).
  10. Forsythe and Barnes, R.S.I. 4, 289 (1933).
  11. Coblenz, Bur. Standards J. Research 12, 13 (1934).
    [CrossRef]
  12. Luckiesh and Holladay, J.O.S.A. 23, 197 (1933).
    [CrossRef]

1934 (1)

Coblenz, Bur. Standards J. Research 12, 13 (1934).
[CrossRef]

1933 (2)

Luckiesh and Holladay, J.O.S.A. 23, 197 (1933).
[CrossRef]

Forsythe and Barnes, R.S.I. 4, 289 (1933).

1932 (1)

Pettit, Astrophys. J. 75, 185 (1932).
[CrossRef]

1931 (2)

Coblentz, Bur. Standards J. Research 6, 951 (1931).
[CrossRef]

Marden and Nicholson, Trans. I.E.S. 26, 592 (1931).

1930 (3)

J.O.S.A. 20, 396 (1930).
[CrossRef]

O’Brien, Phys. Rev. 36, 381 (1930).

Greider and Downes, Trans. Ill. Eng. Soc. 25, 378 (1930).

1928 (1)

Maughan, Am. J. Physiol. 87, 381 (1928).

1923 (1)

Abbot, Smithsonian Miscellaneous Collection 74, 15 (1923).

1922 (1)

Fabry and Buisson, Comptes Rendus 175, 156 (1922); Astrophys. J. 54, 297 (1921).
[CrossRef]

Abbot,

Abbot, Smithsonian Miscellaneous Collection 74, 15 (1923).

Barnes,

Forsythe and Barnes, R.S.I. 4, 289 (1933).

Buisson,

Fabry and Buisson, Comptes Rendus 175, 156 (1922); Astrophys. J. 54, 297 (1921).
[CrossRef]

Coblentz,

Coblentz, Bur. Standards J. Research 6, 951 (1931).
[CrossRef]

Coblenz,

Coblenz, Bur. Standards J. Research 12, 13 (1934).
[CrossRef]

Downes,

Greider and Downes, Trans. Ill. Eng. Soc. 25, 378 (1930).

Fabry,

Fabry and Buisson, Comptes Rendus 175, 156 (1922); Astrophys. J. 54, 297 (1921).
[CrossRef]

Forsythe,

Forsythe and Barnes, R.S.I. 4, 289 (1933).

Greider,

Greider and Downes, Trans. Ill. Eng. Soc. 25, 378 (1930).

Holladay,

Luckiesh and Holladay, J.O.S.A. 23, 197 (1933).
[CrossRef]

Luckiesh,

Luckiesh and Holladay, J.O.S.A. 23, 197 (1933).
[CrossRef]

Marden,

Marden and Nicholson, Trans. I.E.S. 26, 592 (1931).

Maughan,

Maughan, Am. J. Physiol. 87, 381 (1928).

Nicholson,

Marden and Nicholson, Trans. I.E.S. 26, 592 (1931).

O’Brien,

O’Brien, Phys. Rev. 36, 381 (1930).

Pettit,

Pettit, Astrophys. J. 75, 185 (1932).
[CrossRef]

Am. J. Physiol. (1)

Maughan, Am. J. Physiol. 87, 381 (1928).

Astrophys. J. (1)

Pettit, Astrophys. J. 75, 185 (1932).
[CrossRef]

Bur. Standards J. Research (2)

Coblentz, Bur. Standards J. Research 6, 951 (1931).
[CrossRef]

Coblenz, Bur. Standards J. Research 12, 13 (1934).
[CrossRef]

Comptes Rendus (1)

Fabry and Buisson, Comptes Rendus 175, 156 (1922); Astrophys. J. 54, 297 (1921).
[CrossRef]

J.O.S.A. (2)

J.O.S.A. 20, 396 (1930).
[CrossRef]

Luckiesh and Holladay, J.O.S.A. 23, 197 (1933).
[CrossRef]

Phys. Rev. (1)

O’Brien, Phys. Rev. 36, 381 (1930).

R.S.I. (1)

Forsythe and Barnes, R.S.I. 4, 289 (1933).

Smithsonian Miscellaneous Collection (1)

Abbot, Smithsonian Miscellaneous Collection 74, 15 (1923).

Trans. I.E.S. (1)

Marden and Nicholson, Trans. I.E.S. 26, 592 (1931).

Trans. Ill. Eng. Soc. (1)

Greider and Downes, Trans. Ill. Eng. Soc. 25, 378 (1930).

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Figures (9)

Fig. 1
Fig. 1

Distribution in a vertical plane of the ultraviolet radiation from a standard S–1 unit.

Fig. 2
Fig. 2

Variation of the ultraviolet output from a type S–1 unit as the unit is rotated about a horizontal axis. Photo-tube on axis of reflector.

Fig. 3
Fig. 3

Distribution in a vertical plane of the ultraviolet radiation from a standard S–2 unit.

Fig. 4
Fig. 4

Variation of the ultraviolet output from an S–2 unit as the unit is rotated about a horizontal axis. Photo-tube on axis of reflector. ○, plane of leads parallel to axis of rotation. ●, plane of leads perpendicular to axis of rotation.

Fig. 5
Fig. 5

Distribution in a vertical plane of the ultraviolet radiation from a G–1 unit.

Fig. 6
Fig. 6

Variation of the ultraviolet output from a G–1 unit as the unit is rotated about a horizontal axis. Photo-tube on axis of reflector.

Fig. 7
Fig. 7

Variation of the ultraviolet output from a G–5 unit as the unit is rotated about a horizontal axis. Photo-tube on axis of reflector.

Fig. 8
Fig. 8

Distribution in a vertical plane of the ultraviolet radiation from a G–5 unit.

Fig. 9
Fig. 9

Spectral distribution of ultraviolet radiation from a 500 watt CX lamp. x, measured points. ⊙, calculated points.

Tables (3)

Tables Icon

Table I Intensities of principal lines of wave-lengths less than 3135A from several ultraviolet sources. (Microwatts per cm2 30″ from source.)

Tables Icon

Table II Variation of the axial intensity of the ultraviolet radiation with the distance from the unit.

Tables Icon

Table III Output of several ultraviolet sources.