Hostname: page-component-848d4c4894-hfldf Total loading time: 0 Render date: 2024-05-08T02:30:41.363Z Has data issue: false hasContentIssue false
  • English
  • Français

XVII.—The Ultra-Violet Emission Spectra of the Halogens

Published online by Cambridge University Press:  15 September 2014

E. B. Ludlam  and
W. West
E. B. Ludlam
Affiliation:
University of Edinburgh
Get access

Extract

Most of the work on the emission spectra of the halogens has been confined to the visible or near ultra-violet regions: but, in view of the characteristic chemical and photo-chemical properties of these elements, it has become increasingly important to make a general survey extending well into the ultra-violet. The emission spectra of chlorine and bromine in the visible and near ultra-violet up to about 370 µµ have been described by Eder and Valenta as consisting of lines, chiefly in the green and blue. For bromine, a continuous spectrum was also observed, starting at about 490 µµ; this rapidly falls off in intensity, but at about 420 µµ a second continuous band commences, extending with increasing intensity to the limit of their photograph about 370 µµ. Quite recently the investigation of the quartz ultra-violet region of chlorine has occupied several observers, chiefly from the physical point of view; Jevons has measured the ultra-violet line spectrum from 335 µµ to 207 µµ, and a communication on the same subject has appeared from Angerer.

Type
Proceedings
Information
Proceedings of the Royal Society of Edinburgh , Volume 44 , 1925 , pp. 185 - 196
Copyright
Copyright © Royal Society of Edinburgh 1925

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

page 185 note * Beiträge zur Photochemie, pp. 358, 369 (1904).

page 185 note † Proc. Roy. Soc., A, 103, 193, 1923.CrossRefGoogle Scholar

page 185 note ‡ Zeit. für wiss. Phot., 22, 200, 1923.Google Scholar

page 185 note § Researches in Phys. Optics, part ii, p. 51, 1919.

page 185 note ║ Ann. der Physik, 64, 673, 1921.Google Scholar

page 185 note ¶ Z. f. Physik, 11, 167, 1922.CrossRefGoogle Scholar

page 185 note ** Ibid., 18, 239, 1923.

page 189 note * Z. f. Physik, 11, 167 (1922).CrossRefGoogle Scholar

page 190 note * Compton, and Smith, , Phys. Rev., 16, 501 (1920)Google Scholar; Found, ibid., 16, 41, 1920.

page 191 note * Proc. Roy. Inst., 10, 245, 1883.Google Scholar

page 191 note † Astroph. J., 14, 85, 1901.CrossRefGoogle Scholar

page 191 note ‡ Astroph. J., 32, 291, 1910.CrossRefGoogle Scholar

page 191 note § Proc. Roy. Soc., A, 99, 460, 1921.Google Scholar

page 191 note ║ Phil. Mag., 44, 651, 1922.CrossRefGoogle Scholar

page 191 note ¶ Z. f. phys. chem., 91, 733, 1916.Google Scholar

page 191 note ** Ann. de Physique, 12, 135, 1919.Google Scholar

page 192 note * Zeit. f. Physik, 18, 239, 1923.CrossRefGoogle Scholar

page 192 note † Ibid., 5, 428, 1921.

page 193 note * See also Fajans, , Verh. d. deut. Phys. Ges., 21, 714, 1921.Google Scholar

page 193 note † See, for instance, Ulne, , Phys. Rev., 11, 401, 1918.Google Scholar

page 193 note ‡ Ber. d. deut. Chem. Ges., 1922, p. 1003 ; Henglein, , Zeit. f. anorg. Chem., 123, 137, 1922.CrossRefGoogle Scholar

page 193 note § Bodenstein, , Z. f. Elektroch., 22, 31, 1916Google Scholar, for Br; Stark and Bodenstein, ibid., 16, 961, 1910, for I.

page 194 note * Verh. d. deut. Phys. Ges., 21, 13, 679 (1919)Google Scholar ; see also Fajans, loc. cit., pp. 539, 714.

page 195 note * Z. f. Physik, 5, 428, 1921.CrossRefGoogle Scholar

page 195 note † Ann. d. Physik, 64, 673. 1921.Google Scholar

page 195 note ‡ J.A.C.S., 42, 1832, 1920.CrossRefGoogle Scholar