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References

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  1. D. E. Matlock, “The Deep Ocean Optical Measurement (DOOM) Program,” N. O. L. Report TR-70-165, Whiteoak, Md.
  2. R. J. Pressley, Ed., Handbook of Lasers with Selected Data on Optical Technology (Chemical Rubber Co., Cleveland, Ohio, 1971). In Sec. 2, there is a comprehensive review of Incoherent Optical Sources by I. Lieberman.
  3. C. F. Gallo, Appl. Opt. 6, 1563 (1967); Appl. Opt. 9, 2711 (1970).
    [Crossref] [PubMed]
  4. V. H. SchirmerZ. Angew. Phys. 11, 357 (1959).
  5. A cursory examination of the iodides of these metals was made. The results will be submitted for publication at a later date.
  6. C. H. Corliss, W. R. Bozman, “Experimental Transition Probabilities for Spectral Lines of Seventy Elements,” Nat. Bur. Stand. Monograph 53 (Government Printing Office, Washington D. C, 1962).
  7. Electro-Optics Associates Type P-101.
  8. H. R. Griem, Plasma Spectroscopy (McGraw-Hill, New York, 1964).
  9. C. F. Gallo, Appl. Opt. 10, 2517 (1971).
    [Crossref] [PubMed]
  10. R. E. Bolz, G. L. Tuve, Eds., Handbook of Tables for Applied Engineering Science (Chemical Rubber Co., Cleveland, Ohio, 1970).
  11. ILC short arc shell SA 500X2F1.
  12. PEK short arc shell 1000B.
  13. PEK Xenon short arc X1000.

1971 (1)

1967 (1)

1959 (1)

V. H. SchirmerZ. Angew. Phys. 11, 357 (1959).

Bozman, W. R.

C. H. Corliss, W. R. Bozman, “Experimental Transition Probabilities for Spectral Lines of Seventy Elements,” Nat. Bur. Stand. Monograph 53 (Government Printing Office, Washington D. C, 1962).

Corliss, C. H.

C. H. Corliss, W. R. Bozman, “Experimental Transition Probabilities for Spectral Lines of Seventy Elements,” Nat. Bur. Stand. Monograph 53 (Government Printing Office, Washington D. C, 1962).

Gallo, C. F.

Griem, H. R.

H. R. Griem, Plasma Spectroscopy (McGraw-Hill, New York, 1964).

Matlock, D. E.

D. E. Matlock, “The Deep Ocean Optical Measurement (DOOM) Program,” N. O. L. Report TR-70-165, Whiteoak, Md.

Schirmer, V. H.

V. H. SchirmerZ. Angew. Phys. 11, 357 (1959).

Appl. Opt. (2)

Z. Angew. Phys. (1)

V. H. SchirmerZ. Angew. Phys. 11, 357 (1959).

Other (10)

A cursory examination of the iodides of these metals was made. The results will be submitted for publication at a later date.

C. H. Corliss, W. R. Bozman, “Experimental Transition Probabilities for Spectral Lines of Seventy Elements,” Nat. Bur. Stand. Monograph 53 (Government Printing Office, Washington D. C, 1962).

Electro-Optics Associates Type P-101.

H. R. Griem, Plasma Spectroscopy (McGraw-Hill, New York, 1964).

R. E. Bolz, G. L. Tuve, Eds., Handbook of Tables for Applied Engineering Science (Chemical Rubber Co., Cleveland, Ohio, 1970).

ILC short arc shell SA 500X2F1.

PEK short arc shell 1000B.

PEK Xenon short arc X1000.

D. E. Matlock, “The Deep Ocean Optical Measurement (DOOM) Program,” N. O. L. Report TR-70-165, Whiteoak, Md.

R. J. Pressley, Ed., Handbook of Lasers with Selected Data on Optical Technology (Chemical Rubber Co., Cleveland, Ohio, 1971). In Sec. 2, there is a comprehensive review of Incoherent Optical Sources by I. Lieberman.

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Figures (3)

Fig. 1
Fig. 1

Emission spectrum of a Zn–Xe short arc. These data are uncorrected for spectral variations of photocathode (S-20) sensitivity and of spectrometer transmission.

Fig. 2
Fig. 2

Emission spectrum of the 4811-Å transition of zinc. The full width at half maximum (FWHM) was 8.7 Å.

Fig. 3
Fig. 3

Efficiency of cadmium and zinc as a function of the temperature that surrounds the envelope of the short arc lamp. The efficiency is defined relative to the blue-green portion of the spectrum as the sum of the total power radiated in the three transitions of interest divided by the input electrical power.

Tables (2)

Tables Icon

Table I Power Output of the Transitions in the Blue-Green and Their Corresponding Line Widths (FWHM) of a Zinc–Xenon Compact Arc Lampa

Tables Icon

Table II Power Output of the Transitions in the Blue-Green and Their Corresponding Line Widths of a Cadmium–Xenon Compact Arc Lampa

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